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WO2016046897A1 - Part supply system - Google Patents

Part supply system Download PDF

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Publication number
WO2016046897A1
WO2016046897A1 PCT/JP2014/075150 JP2014075150W WO2016046897A1 WO 2016046897 A1 WO2016046897 A1 WO 2016046897A1 JP 2014075150 W JP2014075150 W JP 2014075150W WO 2016046897 A1 WO2016046897 A1 WO 2016046897A1
Authority
WO
WIPO (PCT)
Prior art keywords
component
holder
lead
wall surface
holding
Prior art date
Application number
PCT/JP2014/075150
Other languages
French (fr)
Japanese (ja)
Inventor
一真 石川
Original Assignee
富士機械製造株式会社
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 富士機械製造株式会社 filed Critical 富士機械製造株式会社
Priority to PCT/JP2014/075150 priority Critical patent/WO2016046897A1/en
Priority to JP2016549689A priority patent/JPWO2016046897A1/en
Publication of WO2016046897A1 publication Critical patent/WO2016046897A1/en

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Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B23MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
    • B23PMETAL-WORKING NOT OTHERWISE PROVIDED FOR; COMBINED OPERATIONS; UNIVERSAL MACHINE TOOLS
    • B23P19/00Machines for simply fitting together or separating metal parts or objects, or metal and non-metal parts, whether or not involving some deformation; Tools or devices therefor so far as not provided for in other classes
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B25HAND TOOLS; PORTABLE POWER-DRIVEN TOOLS; MANIPULATORS
    • B25JMANIPULATORS; CHAMBERS PROVIDED WITH MANIPULATION DEVICES
    • B25J13/00Controls for manipulators
    • B25J13/08Controls for manipulators by means of sensing devices, e.g. viewing or touching devices
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65GTRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
    • B65G47/00Article or material-handling devices associated with conveyors; Methods employing such devices
    • B65G47/02Devices for feeding articles or materials to conveyors
    • B65G47/04Devices for feeding articles or materials to conveyors for feeding articles
    • B65G47/12Devices for feeding articles or materials to conveyors for feeding articles from disorderly-arranged article piles or from loose assemblages of articles
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65GTRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
    • B65G47/00Article or material-handling devices associated with conveyors; Methods employing such devices
    • B65G47/74Feeding, transfer, or discharging devices of particular kinds or types
    • B65G47/90Devices for picking-up and depositing articles or materials

Definitions

  • the present invention relates to a component supply system including a component support portion that supports a plurality of components in a scattered state.
  • a plurality of components discharged from an opening of a storage unit that stores a plurality of components are scattered on the component support unit, and the components scattered on the component support unit are component holding robots, etc.
  • the following patent document describes an example of such a component supply apparatus.
  • An object of the present invention is to stably supply components from a component support portion.
  • a component supply system includes a storage unit that stores a plurality of components, and a component support surface that supports a plurality of components discharged from the storage unit in a scattered state.
  • a component support portion having a wall surface for preventing the component from falling off from the component support surface, an imaging device for imaging a component supported by the component support surface, and supported by the component support surface
  • a holder for holding a component; a moving device for moving the holder to an arbitrary position above the component support surface; and a control device for controlling the operation of the holder and the moving device.
  • a determination unit that determines whether or not a component other than the target component interferes, and the target component that is determined by the determination unit that the holder and the wall surface or a component other than the target component do not interfere with each other. It has an operation control part which controls operation of the holder and the movement device so that only the holder may be held by the holder.
  • components can be stably supplied from the component support section.
  • FIG. 1 shows a component mounting apparatus 10.
  • the component mounting apparatus 10 is an apparatus for executing a component mounting operation on the circuit substrate 12.
  • the component mounting apparatus 10 includes an apparatus main body 20, a substrate conveyance holding device 22, a component mounting device 24, imaging devices 26 and 28, a component supply device 30, a loose component supply device 32, and a control device (see FIG. 21) 34.
  • the circuit substrate 12 includes a circuit board, a three-dimensional structure substrate, and the like, and the circuit board includes a printed wiring board and a printed circuit board.
  • the apparatus main body 20 includes a frame portion 40 and a beam portion 42 that is overlaid on the frame portion 40.
  • the substrate conveyance holding device 22 is disposed in the center of the frame portion 40 in the front-rear direction, and includes a conveyance device 50 and a clamp device 52.
  • the conveyance device 50 is a device that conveys the circuit substrate 12
  • the clamp device 52 is a device that holds the circuit substrate 12.
  • the substrate conveyance holding device 22 conveys the circuit substrate 12 and holds the circuit substrate 12 fixedly at a predetermined position.
  • the conveyance direction of the circuit substrate 12 is referred to as an X direction
  • a horizontal direction perpendicular to the direction is referred to as a Y direction
  • a vertical direction is referred to as a Z direction. That is, the width direction of the component mounting apparatus 10 is the X direction, and the front-rear direction is the Y direction.
  • the component mounting device 24 is disposed in the beam portion 42 and includes two work heads 60 and 62 and a work head moving device 64.
  • Each work head 60, 62 has a component holder 66 (see FIG. 2) 66 such as a chuck and a suction nozzle, and holds the component by the component holder 66.
  • the work head moving device 64 includes an X direction moving device 68, a Y direction moving device 70, and a Z direction moving device 72. Then, the two working heads 60 and 62 are integrally moved to arbitrary positions on the frame portion 40 by the X-direction moving device 68 and the Y-direction moving device 70. Further, as shown in FIG.
  • each work head 60, 62 is detachably attached to the sliders 74, 76, and the Z-direction moving device 72 individually moves the sliders 74, 76 in the vertical direction. That is, the work heads 60 and 62 are individually moved in the vertical direction by the Z-direction moving device 72.
  • the imaging device 26 is attached to the slider 74 in a state of facing downward, and is moved together with the work head 60 in the X direction, the Y direction, and the Z direction. Thereby, the imaging device 26 images an arbitrary position on the frame unit 40. As shown in FIG. 1, the imaging device 28 is disposed between the base material conveyance holding device 22 and the component supply device 30 on the frame portion 40 so as to face upward. Thereby, the imaging device 28 images the components held by the component holder 66 of the work heads 60 and 62.
  • the component supply device 30 is disposed at one end of the frame portion 40 in the front-rear direction.
  • the component supply device 30 includes a tray-type component supply device 78 and a feeder-type component supply device (not shown).
  • the tray-type component supply device 78 is a device that supplies components placed on the tray.
  • the feeder-type component supply device is a device that supplies components by a tape feeder (not shown).
  • the bulk component supply device 32 is disposed at the other end portion of the frame portion 40 in the front-rear direction.
  • the separated component supply device 32 is a device for aligning a plurality of components scattered in a separated state and supplying the components in an aligned state. That is, it is an apparatus that aligns a plurality of components in an arbitrary posture into a predetermined posture and supplies the components in a predetermined posture.
  • the structure of the component supply apparatus 32 is demonstrated in detail.
  • examples of the components supplied by the component supply device 30 and the bulk component supply device 32 include electronic circuit components, solar cell components, and power module components.
  • Electronic circuit components include components having leads and components not having leads.
  • the bulk component supply device 32 includes a main body 80, a component supply device 82, a component scattered state realization device 84, a component return device 86, an imaging device 88, and a component delivery device 90. is doing.
  • the component supplier 82, the component scattered state realizing device 84, and the component returning device 86 are assembled to a frame 96 fixed to the main body 80, and the component supplier 82, the component scattered state realizing device 84, and the component returning device 86 are assembled.
  • a component supply unit 98 is configured.
  • five component supply units 98 are arranged, and these five component supply units 98 are arranged in a line in the X direction.
  • FIG. 3 is a diagram showing an internal structure of the bulk component supply device 32.
  • the component supplier 82 includes a component container 100, a housing 102, and a grip 104, as shown in FIGS.
  • the component container 100 has a generally rectangular parallelepiped shape, and an upper surface and a front surface are open. As shown in FIG. 6, the interior of the component container 100 is divided into a loading part 110 and a storage part 112 by a pair of inclined surfaces 106 and 108. Specifically, the inclined surfaces 106 and 108 are disposed so that the ends of the inclined surfaces 106 and 108 face each other, and the inclined surfaces 106 and 108 are inclined so that the opposite ends of each other are positioned below. Further, the end portions of the inclined surfaces 106 and 108 facing each other are separated from each other, and an opening 114 is formed between the end portions of the inclined surfaces 106 and 108 facing each other.
  • the slope of the inclined surface 106 located on the front side where the component container 100 opens is gentler than the inclination of the inclined surface 108, and the end of the inclined surface 106 on the opening 114 side is the opening of the inclined surface 108. It is located above the end on the 114 side. Further, the opening 114 is larger than the component accommodated in the component container 100.
  • the bottom surface of the storage portion 112 that is, the bottom surface of the component storage device 100 is an inclined surface 116, which is inclined toward the front surface of the component storage device 100 that opens.
  • the housing 102 has a pair of side walls 120.
  • the pair of side walls 120 are generally rectangular and are disposed to face each other so as to sandwich the component container 100.
  • a pair of projecting portions 122 and 124 projecting in a U-shape are formed at the rear end portion of each side wall 120.
  • the pair of side walls 120 are connected by connecting members 126 and 128 at the protrusions 122 and 124.
  • the pair of side walls 120 are connected by a connecting rod 130 at the front end and connected by a connecting rod 132 at the lower end.
  • the dimension between the pair of side walls 120 is slightly longer than the width of the component container 100 sandwiched between the pair of side walls 120.
  • a support shaft 134 is bridged between the pair of side walls 120 at the base end portion of the projecting portion 122, and the component container 100 is slidably supported by the support shaft 134 at the lower end portion on the rear side. Yes. That is, the component container 100 swings around the support shaft 134 inside the housing 102. Further, a bar-shaped stopper 136 is bridged between the pair of side walls 120 at the upper end, and a bar-shaped stopper 138 is bridged at the lower end. In the parts container 100, the stopper 136 is restricted from swinging upward, and the stopper 138 is restricted from swinging downward.
  • a notch 140 is formed on the front side of the side wall of the component container 100, and a brush holding member 142 is bridged between the pair of side walls 120 so as to be positioned in the notch 140.
  • the brush 144 is fixed to the lower end portion of the brush holding member 142 so as to extend downward.
  • the brush 144 is formed in a plate shape, and the size of the brush 144 formed in the plate shape in the width direction is slightly smaller than the size in the width direction inside the component container 100. Thereby, when the component storage device 100 swings upward, the brush 144 relatively moves toward the inside of the component storage device 100.
  • a component discharge member 150 is fixedly disposed between the pair of side walls 120 so as to be positioned in front of the lower end portion of the front surface of the component container 100.
  • the component discharge member 150 includes an inclined plate 152 and a pair of side plates provided upright at both ends in the width direction of the inclined plate 152 (however, only one of the pair of side plates is shown in FIG. 5).
  • the inclined plate 152 is composed of three different inclined surfaces. First, the first inclined surface 156 closest to the component container 100 is inclined in the same direction as the inclined surface 116 of the component container 100, and is inclined to the same extent as the inclined surface 116.
  • the second inclined surface 158 that is continuous with the first inclined surface 156 is inclined in the same direction as the first inclined surface 156, and is inclined at a steeper angle than the first inclined surface 156.
  • the third inclined surface 160 continuing to the second inclined surface 158 is inclined in the same direction as the second inclined surface 158, and is substantially inclined in the vertical direction.
  • the grip 104 includes a fixed holding member 170 and a movable holding member 172, as shown in FIG.
  • the fixed gripping member 170 has a rectangular tube shape, and one side surface is open.
  • the fixed gripping member 170 is fixed to the connecting member 128 at the upper end portion and fixed to the connecting member 126 at the lower end portion with the side surface that opens between the pair of side walls 120.
  • the movable gripping member 172 also has a square cylindrical shape, and one side surface is open.
  • the dimension in the width direction of the movable gripping member 172 is slightly smaller than the dimension in the width direction of the fixed gripping member 170.
  • the movable gripping member 172 is fitted into the fixed gripping member 170 so that the side surface of the movable gripping member 172 faces the side surface of the fixed gripping member 170 opened.
  • a support shaft 174 is stretched over the pair of side walls 120 at the protruding portion 122, and the movable gripping member 172 is supported by the support shaft 174 at the lower end portion so as to be swingable. That is, the movable gripping member 172 swings around the lower end portion, and the upper end portion of the movable gripping member 172 approaches and separates from the fixed gripping member 170.
  • the movable gripping member 172 is connected to the rear surface of the component container 100 by a connecting arm 176 at the upper end. For this reason, as the movable gripping member 172 swings, the parts container 100 also swings.
  • a notch 178 is formed on the side surface of the fixed gripping member 170.
  • the notch 178 includes a first notch 180 that is notched in a horizontal direction from the open side of the fixed gripping member 170 toward the inside, and a downward notch from the inner end of the first notch 180.
  • a second cutout portion 182 is formed.
  • an engaging member 184 that engages with the notch 178 is fixed to the side surface of the movable gripping member 172.
  • a spring (not shown) is compressed between the fixed gripping member 170 and the movable gripping member 172. For this reason, the movable gripping member 172 is biased in a direction away from the fixed gripping member 170 by the elastic force of the spring.
  • the engaging member 184 of the movable gripping member 172 is engaged with the first notch portion 180 of the notch portion 178.
  • the movable gripping member 172 in a normal state, the movable gripping member 172 is biased in a direction away from the fixed gripping member 170, and the upper end portion of the movable gripping member 172 swings in a direction away from the fixed gripping member 170.
  • the component container 100 swings downward, and the component container 100 contacts the stopper 138 as shown in FIG.
  • the front end portion of the inclined surface 116 of the component container 100 faces the rear end portion of the first inclined surface 156 of the inclined plate 152 with almost no gap.
  • the brush 144 does not move relatively toward the inside of the parts container 100, so that the lower end portion of the brush 144 and the parts container 100 are not moved.
  • a large opening is formed between the inclined surface 116 and the inclined surface 116. For this reason, normally, the components stored in the storage portion 112 of the component storage device 100 roll down on the upper surface of the inclined plate 152.
  • the component supplier 82 is detachably attached to the frame 96.
  • the frame 96 has a pair of side frame portions 190 as shown in FIG.
  • the pair of side frame portions 190 are generally plate-shaped and are arranged to face each other at a predetermined distance.
  • the distance between the pair of side frame portions 190 is slightly longer than the dimension in the width direction of the component feeder 82, that is, the distance between the pair of side walls 120. For this reason, the component supplier 82 is inserted between the pair of side frame portions 190.
  • an engagement pin 192 that protrudes toward the inside of the frame 96 is fixed to the inner wall surface of each side frame portion 190.
  • a notch 196 is formed at the lower edge of each side wall 120 of the component supplier 82.
  • a longitudinal support member 200 is fixed to the inner wall surface of each side frame portion 190 so as to extend in the front-rear direction.
  • An inclined surface 202 that is inclined downward as it goes forward is formed at the front end of the support member 200.
  • an engagement pin 206 is erected on the outer wall surface of each side wall 120 of the component supplier 82.
  • the engagement pin 192 engages with the notch portion 196, and the engagement pin 206 is on the inclined surface 202 of the support member 200. Supported. Thereby, the component supplier 82 is positioned between the pair of side frame portions 190.
  • a frame main body 210 is disposed below the connecting member 126 of the component supplier 82 positioned between the pair of side frame portions 190.
  • a pair of support blocks 212 are fixed to the upper surface of the frame main body 210 side by side in the width direction of the frame 96.
  • An engagement rod 214 is bridged between the pair of support blocks 212.
  • a claw member 216 is fixed to the lower end portion of the movable gripping member 172 of the grip 104 of the component supplier 82.
  • the claw member 216 is generally L-shaped, and a bent tip portion extends toward the engagement rod 214.
  • the movable gripping member 172 is biased in the direction away from the fixed gripping member 170 by the elastic force of the spring, that is, in a normal state, the tip of the claw member 216 is engaged with the engagement rod 214. Yes.
  • the component supplier 82 is locked to the frame 96 while being positioned between the pair of side frame portions 190.
  • the movable gripping member 172 approaches the fixed gripping member 170 against the elastic force of the spring.
  • the claw member 216 fixed to the lower end portion of the movable gripping member 172 swings in a direction away from the engagement rod 214. Thereby, the engagement of the claw member 216 with the engagement rod 214 is released. For this reason, the component supplier 82 is removed from the frame 96 by lifting the component supplier 82 while the operator holds the grip 104 of the component supplier 82.
  • an RFID (abbreviation of radio frequency identifier) 217 is disposed inside the lower end portion of the fixed gripping member 170 of the grip 104.
  • the RFID 217 transmits ID information by short-range wireless communication using radio waves, and information on components supplied by the component supplier 82 is transmitted as ID information.
  • a receiver 218 capable of receiving ID information transmitted from the RFID 217 is disposed on the upper surface of the frame main body 210.
  • the component scattering state realization device 84 includes a component support member 220, a component support member moving device 222, and a feeder vibration device 224, as shown in FIG.
  • the component support member 220 includes a component support plate 226 and a pair of side wall portions 228.
  • the component support plate 226 has a generally longitudinal plate shape and is disposed so as to extend forward from below the inclined plate 152 of the component feeder 82.
  • the pair of side wall portions 228 are also plate-shaped and face each other in a state of being fixed to both side edges in the longitudinal direction of the component support plate 226.
  • Each side wall portion 228 is fixed to a side edge in the longitudinal direction of the component support plate 226 so as to protrude in the vertical direction of the component support plate 226.
  • the component support member moving device 222 includes a slider 230 and a slide mechanism 232.
  • the slider 230 is fixed to the lower end of the side wall 228 of the component support member 220.
  • the slide mechanism 232 is a mechanism for moving the slider 230 in the front-rear direction by driving an electromagnetic motor (see FIG. 21) 236.
  • the component support member 220 moves in the front-rear direction slightly below the lower end of the inclined plate 152 of the component supplier 82 with the upper surface of the component support plate 226 being horizontal.
  • the component support member 220 has a component supply position where substantially the entire component support plate 226 is exposed, and the entire component support plate 226 is located below the component feeder 82 as shown in FIG. Move between the retracted position.
  • the feeder vibration device 224 includes a cam member 240, a cam follower 242, and a stopper 244, as shown in FIG.
  • the cam member 240 has a plate shape and is fixed to the outer side surface of the side wall portion 228 so as to extend in the front-rear direction.
  • a plurality of teeth 245 are formed at equal intervals in the front-rear direction.
  • each of the plurality of teeth 245 is defined by an inclined surface 246 that extends upward toward the rear, and a vertical surface 248 that extends downward in the vertical direction from the upper end of the inclined surface 246.
  • the cam follower 242 includes a bracket 250, a lever 252 and a roller 254.
  • the bracket 250 is fixed to the lower end portion on the front side of the side wall 120 of the component supplier 82.
  • the lever 252 is disposed so as to extend in the vertical direction, and is held by the bracket 250 at the upper end portion so as to be swingable around an axis parallel to the width direction of the component feeder 82.
  • the roller 254 is held by the lower end of the lever 252 so as to be rotatable around an axis parallel to the width direction of the component supplier 82.
  • the lever 252 is biased in the forward direction by the elastic force of a coil spring (not shown).
  • the stopper 244 is provided on the bracket 250 in a protruding shape, and a lever 252 biased by the elastic force of the coil spring is in contact with the stopper 244. That is, the stopper 244 restricts the forward movement of the lever 252.
  • the lever 252 has a posture of extending downward in the vertical direction as shown in FIG. 5 in a state in which the forward swing is restricted.
  • the component return device 86 includes a container lifting / lowering device 260, a component recovery container 262, a motion conversion mechanism 264, and a shutter 265, as shown in FIG.
  • the container lifting device 260 includes an air cylinder 266 and a lifting member 268.
  • the air cylinder 266 has a piston rod 270, and is disposed on the front side of the component support member 220 so that the piston rod 270 expands and contracts in the vertical direction.
  • the air cylinder 266 is fixed to the end portion on the front side of the slider 230. Thus, the air cylinder 266 moves in the front-rear direction together with the component support member 220 by the operation of the component support member moving device 222.
  • the elevating member 268 is fixed to the tip of the piston rod 270, and a component collection container 262 is disposed on the upper surface of the elevating member 268. Thereby, the parts collection container 262 moves in the vertical direction by the operation of the air cylinder 266. At this time, the component collection container 262 is positioned at a rising end position above the component feeder 82 as shown in FIG. 10 and below the component support plate 226 of the component support member 220 as shown in FIG. It moves to and from the descending end position.
  • the component collection container 262 has a box shape with an upper surface opened, and is held on the upper surface of the elevating member 268 so as to be rotatable about an axis parallel to the width direction of the component feeder 82. Accordingly, the bottom of the parts collection container 262 is horizontal, the parts receiving attitude (the attitude of the parts collection container 262 in FIG. 11) that can receive the parts from the opening, and the bottom of the parts collection container 262 are vertical, and the parts can be removed from the opening. It rotates between a component discharge posture (the posture of the component collection container 262 in FIG. 10) that can be discharged. The component collection container 262 is urged by a coil spring (not shown) in the direction of the component receiving posture. Thereby, the parts collection container 262 is maintained in the parts receiving posture in the normal time. In addition, the rear wall of the component collection container 262 is an inclined wall that is directed downward toward the rear in the component discharge posture.
  • the motion conversion mechanism 264 includes a protruding pin 272 and an engagement block 274, as shown in FIG.
  • the protruding pin 272 is disposed at the rear end of the component collection container 262 in the component receiving posture, and protrudes outward on the side of the component collection container 262.
  • the engagement block 274 is fixed to the inside of the upper end portion on the front side of the side frame portion 190. As shown in FIG. 10, when the component collection container 262 is raised to the rising end position by the operation of the air cylinder 266, the protruding pin 272 is engaged with the engagement block 274. As a result, the component collection container 262 rotates and assumes a component discharge posture.
  • the shutter 265 is generally plate-shaped, and the dimension in the width direction thereof is approximately the same as the dimension in the width direction of the component support member 220.
  • a long hole 278 is formed in the shutter 265 so as to extend in the vertical direction, and a protrusion 280 fixed to the front end of the slider 230 is inserted into the long hole 278 with a clearance. ing. Thereby, the shutter 265 slides between the component support member 220 and the component return device 86 in the direction along the elongated hole 278, that is, in the vertical direction. Note that the shutter 265 is biased upward by a coil spring 282.
  • a projecting portion 284 that projects rearward is formed at the rear end portion of the elevating member 268.
  • a bent portion 286 bent toward the front is formed at the lower end portion of the shutter 265.
  • the elevating member 268 is also raised. At this time, the shutter 265 is lifted together with the lifting member 268 by the elastic force of the coil spring 282. Further, when the component collection container 262 is raised by the operation of the air cylinder 266 and the elevating member 268 is also raised, the shutter 265 is also raised, but as shown in FIG. 13, the protrusion 280 comes into contact with the lower end of the long hole 278. As a result, the rise of the shutter 265 is restricted. Note that the upper end of the shutter 265 in a state where the ascent is restricted is located above the inclined plate 152 of the component supplier 82.
  • the imaging device 88 includes a camera 290 and a camera moving device 292.
  • the camera moving device 292 includes a guide rail 296, a slider 298, and an electromagnetic motor (see FIG. 21) 299.
  • the guide rail 296 is fixed to the main body 80 so as to extend in the width direction of the bulk component supply device 32 above the component scattered state realization device 84.
  • the slider 298 is attached to the guide rail 296 so as to be slidable along the guide rail 296, and slides to an arbitrary position by the operation of the electromagnetic motor 299.
  • the camera 290 is attached to the slider 298 so as to face downward.
  • a component support member 220 at the component supply position is located below the camera 290 mounted on the slider 298.
  • the camera 290 moves above the component support member 220 of any component supply unit 98 of the five sets of component supply units 98 and images a plurality of components on the component support plate 226 of the component support member 220. To do.
  • the component delivery device 90 includes a component holding head moving device 300, a component holding head 302, and two shuttle devices 304.
  • the component holding head moving device 300 includes an X direction moving device 310, a Y direction moving device 312 and a Z direction moving device 314.
  • the Y-direction moving device 312 includes a Y slider 316, a pair of guide rails 318, and an electromagnetic motor (see FIG. 21) 319.
  • the pair of guide rails 318 are provided on the main body 80 so as to extend in the Y direction with the five sets of component supply units 98 interposed therebetween.
  • the Y slider 316 is supported at both ends by a pair of guide rails 318 so as to be slidable in the Y direction, and is moved to an arbitrary position in the Y direction by driving of the electromagnetic motor 319.
  • the X-direction moving device 310 includes an X slider 320 and an electromagnetic motor (see FIG. 21) 321.
  • the X slider 320 is slidably held in the X direction on the side surface of the Y slider 316, and moves to an arbitrary position in the X direction by driving the electromagnetic motor 321.
  • the Z direction moving device 314 includes a Z slider 322 and an electromagnetic motor (see FIG. 21) 323.
  • the Z slider 322 is held on the side surface of the X slider 320 so as to be slidable in the Z direction, and is moved to an arbitrary position in the Z direction by driving of the electromagnetic motor 323.
  • the component holding head 302 is mounted on the Z slider 322. Thereby, the component holding head 302 is moved to an arbitrary position in the horizontal direction and moved in the vertical direction above the component support members 220 of the five sets of component supply units 98 by the operation of the component holding head moving device 300. Is possible. For this reason, the component holding head 302 is located between a holding position at which a component can be held from the component support member 220 of an arbitrary component supply unit 98 of the five sets of component supply units 98 and a retracted position retracted from the holding position. Move with.
  • the vertical movement range of the component holding head 302 by the component holding head moving device 300 is between the upper surface of the component support plate 226 of the component support member 220 and the imaging device 88.
  • the moving range of the component holding head 302 by the component holding head moving device 300 is different from the moving range of the camera 290 by the camera moving device 292. Therefore, the camera 290 and the component holding head 302 of the imaging device 88 can be simultaneously moved above the component support member 220 of the same component supply unit 98 among the five sets of component supply units 98.
  • the component holding head 302 includes, as shown in FIG. Including.
  • the head body 330 is formed integrally with the Z slider 322.
  • the component holder 332 includes a main body portion 337, a pair of claw portions 338, and a claw portion sliding device 339.
  • the pair of claw portions 338 are disposed so as to extend downward from the lower surface of the main body portion 337, and slide so as to be able to approach and separate from each other. Further, the claw part sliding device 339 slides the pair of claw parts 338 in a direction to approach and separate.
  • the component holder 332 holds the component by the pair of claw portions 338 by bringing the pair of claw portions 338 closer to each other. Further, the component holder 332 separates the component from between the pair of claws 338 by separating the pair of claws 338.
  • the holder turning device 334 is a device for turning the component holder 332.
  • the electromagnetic motor 340 is fixed to the head body 330 such that the output shaft 341 thereof extends in the vertical direction.
  • the screw rod 342 is disposed so as to extend in the vertical direction so as to be rotatable around the axis. Then, the rotational force of the electromagnetic motor 340 is transmitted to the screw rod 342 via the timing pulleys 344 and 346 and the timing belt 348.
  • a nut 350 is engaged with the screw rod 342, and a slider 352 is fixed to the nut 350. As a result, the slider 352 slides up and down by the rotation of the screw rod 342, that is, by driving the electromagnetic motor 340.
  • a spline shaft 354 is fixed to the slider 352 so as to extend downward, and a lever 356 is attached to a lower end portion of the spline shaft 354 so as to be rotatable around a horizontal axis line by a shaft 357 at one end portion. It has been.
  • a holding member 358 is fixed to the other end portion of the lever 356, and the component holder 332 is held by the holding member 358.
  • An arm 360 is fixed to the side surface of the lever 356 so as to protrude in a direction perpendicular to the rotation axis of the lever 356.
  • a roller 362 is attached to the distal end side of the arm 360, and the roller 362 is rotatable around an axis parallel to the rotation axis of the lever 356.
  • a cam member 364 is fixed to the head main body 330, and a long hole 366 extending in the horizontal direction is formed in the cam member 364.
  • a roller 362 that functions as a cam follower is fitted in the elongated hole 366 and moves along the elongated hole 366.
  • the holder rotating device 335 is a device that rotates the component holder 332 around its axis.
  • the electromagnetic motor 370 is fixed to the head body 330 such that its output shaft (not shown) extends in the vertical direction, and a gear 372 is attached to the output shaft of the electromagnetic motor 370.
  • the spline shaft 354 is fitted with a gear 374 that is relatively movable in the axial direction but is not relatively rotatable.
  • the gear 372 and the gear 374 are engaged with each other.
  • the spline shaft 354 rotates around the axis by driving the electromagnetic motor 370.
  • the spline shaft 354 and the gear 374 can move relative to each other in the axial direction of the spline shaft 354.
  • the rotation of the electromagnetic motor 370 can be performed.
  • the force is transmitted to the spline shaft 354.
  • a transmission mechanism (not shown) for transmitting the rotational force of the spline shaft 354 to the component holder 332 is built in the lever 356. As the spline shaft 354 rotates, the component holder 332 Rotate around its axis.
  • the holder mounting device 336 is a device for detachably mounting the component holder 332 to the holding member 358. As shown in FIG. 18, the holder mounting device 336 includes a recess 376, a negative pressure source 378, an electromagnetic valve 380, a positive pressure source 382, and an electromagnetic valve 384.
  • the recess 376 is formed on the contact surface of the holding member 358 with the component holder 332 and functions as a negative pressure chamber.
  • a negative pressure source 378 and a positive pressure source 382 are connected to the concave portion 376, and an electromagnetic valve 380 is disposed in a path between the concave portion 376 and the negative pressure source 378, and the concave portion 376 and the positive pressure source 382 are connected.
  • An electromagnetic valve 384 is disposed in the path.
  • the component holder 332 comes into contact with the contact surface of the holding member 358, and negative pressure is supplied to the recess 376 by the operation of the electromagnetic valve 380 in a state where the recess 376 is closed by the component holder 332.
  • the component holder 332 is held by the holding member 358.
  • the electromagnetic valve 384 positive pressure is supplied to the concave portion 376, whereby the component holder 332 held by the holding member 358 is released.
  • the component holder 332 grips a component by the pair of claw portions 338.
  • the component holder 332 has a size of the claw portion 338 and a distance between the pair of claw portions 338.
  • the loose component supply device 32 is provided with a holder accommodating device 386 in the main body 80.
  • a plurality of types of component holders 332 having different distances between the pair of claw portions 338 and the like are stored in the holder storage device 386, and the component holding head 302 is replaced with a component holding head moving device as necessary.
  • the component holder 332 mounted on the component holding head 302 and the component holder 332 stored in the holder storage device 386 are automatically exchanged.
  • Each of the two shuttle devices 304 includes a component carrier 388 and a component carrier moving device 390, as shown in FIG. It is fixed to 80.
  • Five component receiving members 392 are mounted on the component carrier 388 in a row in the horizontal direction, and the components are placed on each component receiving member 392.
  • the component receiving member 392 is detachably fitted in the concave portion 396 of the component carrier 388 and is positioned by the convex portions 398 and 400 in the front-rear direction and the lateral direction, respectively.
  • the parts supplied by the bulk parts supply device 32 are electronic circuit parts 410 having leads (hereinafter may be abbreviated as “lead parts”) 410, and the lead parts 410 are parts. It is composed of a main body 412 and two leads 414.
  • the component main body 412 has a generally block shape, and the two leads 414 protrude vertically from the bottom surface 415 of the component main body 412.
  • a component receiving recess 416 is formed in the component receiving member 392.
  • the component receiving recess 416 is a stepped recess, and includes a main body receiving recess 418 that opens to the top surface of the component receiving member 392 and a lead receiving recess 420 that opens to the bottom surface of the main body receiving recess 418.
  • the opening of the lead receiving recess 420 is smaller than the opening of the main body receiving recess 418, and a step surface 422 is formed between the lead receiving recess 420 and the main body receiving recess 418.
  • the edge of the opening of the lead receiving recess 420 is chamfered to form a guide surface 426.
  • the component main body 412 of the lead component 410 is inserted into the main body receiving recess 418 of the component receiving recess 416.
  • the lead component 410 is configured such that the lead 414 faces downward, and the lead 414 is inserted into the lead receiving recess 420. That is, the lead component 410 is inserted into the main body receiving recess 418 with the side surface 428 perpendicular to the bottom surface 415 of the component main body 412 extending along the guide surface 426 of the component receiving member 392, and the lead 414 is connected to the lead receiving recess. 420 is inserted. Note that the depth dimension of the lead receiving recess 420 is deeper than the length dimension of the lead 414.
  • each of the body receiving recess 418 and the lead receiving recess 420 of the component receiving recess 416 has a shape corresponding to the shape, dimensions, etc. of the lead component 410 placed in the component receiving recess 416, and there are a plurality of types.
  • a component receiving member 392 is present. Therefore, the component receiving member 392 mounted on the component carrier 388 can be replaced in accordance with the lead component 410 placed in the component receiving recess 416.
  • the part carrier moving device 390 includes a moving device main body 430 and a main body slide device 432 as shown in FIG.
  • the moving device main body 430 is a plate-like longitudinal member, and is disposed on the front side of the component supply unit 98 so as to extend in the front-rear direction.
  • a guide rail 434 is disposed on the upper surface of the moving device main body 430 so as to extend in the longitudinal direction of the moving device main body 430, and a component carrier 388 is engaged with the guide rail 434. As a result, the component carrier 388 slides along the guide rail 434 on the upper surface of the guide rail 434.
  • the main body slide device 432 includes an endless belt 436 and an electromagnetic motor (see FIG. 21) 438.
  • a plurality of pulleys (not shown) that can rotate around an axis parallel to the lateral direction are disposed at both ends in the longitudinal direction of the moving device main body 430, and the endless belt 436 is wound around the plurality of pulleys. ing. Then, the endless belt 436 circulates as the pulley rotates by driving the electromagnetic motor.
  • a component carrier 388 is fixed to the endless belt 436. As a result, the component carrier 388 slides to an arbitrary position in the front-rear direction on the upper surface of the guide rail 434.
  • the component carrier 388 When the component carrier 388 is slid in the direction approaching the component supply unit 98, the component carrier 388 is slid to the component receiving position located within the movement range of the component holding head 302 by the component holding head moving device 300. On the other hand, when the component carrier 388 slides away from the component supply unit 98, the component carrier 388 slides to the component supply position located within the movement range of the work heads 60 and 62 by the work head moving device 64.
  • the control device 34 includes an overall control device 450, a plurality of individual control devices (only one is shown in the figure) 452, and an image processing device 454.
  • the overall control device 450 is configured mainly by a computer, and is connected to the base material conveyance holding device 22, the component mounting device 24, the imaging device 26, the imaging device 28, the component supply device 30, and the loose component supply device 32. ing. Thereby, the overall control device 450 controls the base material conveyance holding device 22, the component mounting device 24, the imaging device 26, the imaging device 28, the component supply device 30, and the loose component supply device 32 in an integrated manner.
  • the plurality of individual control devices 452 are configured mainly by a computer, and are provided in the base material conveyance holding device 22, the component mounting device 24, the imaging device 26, the imaging device 28, the component supply device 30, and the bulk component supply device 32. (In the figure, only the individual control device 452 corresponding to the bulk component supply device 32 is shown).
  • the individual control device 452 of the bulk component supply device 32 is connected to a component scattered state realization device 84, a component return device 86, a camera moving device 292, a component holding head moving device 300, a component holding head 302, and a shuttle device 304.
  • the individual control device 452 of the bulk component supply device 32 controls the component scattered state realization device 84, the component return device 86, the camera moving device 292, the component holding head moving device 300, the component holding head 302, and the shuttle device 304.
  • the image processing device 454 is connected to the imaging device 88 and processes imaging data captured by the imaging device 88. Further, the image processing device 454 is connected to the individual control device 452 of the bulk component supply device 32. As a result, the individual control device 452 of the bulk component supply device 32 acquires the imaging data captured by the imaging device 88.
  • the component mounting operation is performed on the circuit substrate 12 held by the substrate conveyance holding device 22 with the above-described configuration. Specifically, the circuit substrate 12 is transported to the work position, and is fixedly held by the clamp device 52 at that position. Next, the imaging device 26 moves above the circuit substrate 12 and images the circuit substrate 12. Thereby, the information regarding the error of the holding position of the circuit base material 12 is obtained.
  • the component supply device 30 or the bulk component supply device 32 supplies components at a predetermined supply position. It should be noted that the supply of components by the bulk component supply device 32 will be described in detail later. Then, one of the work heads 60 and 62 moves above the component supply position, and the component holder 66 holds the component.
  • the work heads 60 and 62 holding the components move above the imaging device 28, and the components held by the component holder 66 are imaged by the imaging device 28. As a result, information on the error of the component holding position can be obtained. Then, the work heads 60 and 62 holding the components move above the circuit substrate 12 and correct the held components for errors in the holding position of the circuit substrate 12, errors in the holding position of the components, and the like. And mounted on the circuit substrate 12.
  • A) Lead component supply by bulk component supply device In the bulk component supply device 32, the lead component 410 is put into the component container 100 of the component feeder 82 by the operator, and the lead component 410 that is put in is supplied as a component. By the operation of the supply unit 98 and the component delivery device 90, the component is supplied in a state of being placed on the component receiving member 392 of the component carrier 388. Specifically, the operator inputs a plurality of lead components 410 of the same type from the opening on the upper surface of the component container 100 of the component feeder 82 of an arbitrary component supply unit 98 among the five sets of component supply units 98. . At this time, as shown in FIG. 8, the component support member 220 is moved to a retracted position below the component feeder 82 by the operation of the component support member moving device 222, and in front of the component feeder 82, A parts collection container 262 is located.
  • the lead component 410 thrown from the opening on the upper surface of the component container 100 falls from the loading part 110 of the component container 100 to the storage part 112 through the opening 114 as shown in FIG. At this time, the dropped lead component 410 rolls on the inclined surface 116 and spreads on the inclined surface 116.
  • the lead component 410 is clogged in the opening 114 and the opening 114 is closed, a plurality of lead components 410 loaded from the opening on the upper surface of the component container 100 are stacked in the loading unit 110. It becomes a state. Even if the lead component 410 that has fallen on the inclined surface 116 rolls over the inclined plate 152, the lead component 410 is accommodated in the component recovery container 262 located in front of the component supplier 82.
  • the component support member 220 is moved from the lower part of the component feeder 82 to the front by the operation of the component support member moving device 222.
  • the cam member 240 reaches the cam follower 242
  • the roller 254 of the cam follower 242 moves up along the inclined surface 246 of the teeth 245 of the cam member 240 as shown in FIG.
  • the roller 254 gets over the tooth 245 on the inclined surface 246 of the tooth 245.
  • the lever 252 of the cam follower 242 is biased in the forward direction by the elastic force of the coil spring, and the forward bias of the lever 252 is restricted by the stopper 244.
  • the roller 254 and the teeth 245 are maintained in mesh with each other, the lever 252 does not rotate forward, and the roller 254 has the teeth 245. Get over.
  • the component supply device 82 moves up and down by getting over the teeth 245 of the roller 254. That is, when the component support member 220 moves forward while the roller 254 is engaged with the teeth 245, the roller 254 gets over the plurality of teeth 245, and the component supplier 82 continuously vibrates in the vertical direction. .
  • the lead component 410 spreading on the inclined surface 116 of the component container 100 moves forward due to the vibration of the component supplier 82 and the inclination of the inclined surface 116, and the component of the component support member 220 via the inclined plate 152. It is discharged onto the upper surface of the support plate 226. At this time, the side wall portion 228 of the component support member 220 prevents the lead component 410 from falling from the upper surface of the component support plate 226. Further, the lead component 410 clogged in the opening 114 by the vibration of the component supplier 82 falls onto the inclined surface 116 through the opening 114 and is discharged onto the upper surface of the component support plate 226 through the inclined plate 152. Is done.
  • the lead component 410 is sequentially transferred to the component support plate 226 corresponding to the increased area. Is discharged. At the timing when the roller 254 gets over the teeth 245, the component supplier 82 vibrates, and the lead component 410 is discharged from the component supplier 82 onto the upper surface of the component support plate 226. Further, the cam member 240 is detached from the cam follower 242 before the component support member 220 reaches the component supply position.
  • the camera 290 of the imaging device 88 is moved above the component support plate 226 in which the lead components 410 are scattered by the operation of the camera moving device 292, and the lead component 410 is imaged. To do.
  • a plurality of lead components 410 scattered on the upper surface of the component support plate 226 can be picked up by the component holder 332 based on the imaging data (hereinafter may be referred to as “pickup target component 410t”).
  • pickup target component 410t a lead component that cannot be picked up by the component holder 332 (hereinafter sometimes referred to as “non-pickup target component 410s”).
  • the lead component 410 includes a block-shaped component main body 412 and two leads 414 protruding from the bottom surface 415 of the component main body 412.
  • the component holder 332 holds the component by holding the component between the pair of claw portions 338.
  • the pair of claw portions 338 must sandwich a surface other than the bottom surface 415 on which the lead 414 of the component body 412 is disposed. . That is, the pair of claws 338 needs to sandwich the pair of side surfaces 428 of the component main body 412. Therefore, the position of the pair of side surfaces 428 of the component main body 412 of the lead component 410 is detected based on the imaging data, and the pair of side surfaces 428 of the component main body 412 is sandwiched by the pair of claw portions 338.
  • the component support plate 226 in which the lead components 410 are scattered is provided with a side wall portion 228 for preventing the lead components 410 from dropping off from the component support plate 226.
  • the component holder 332 and the side wall portion 228 may interfere with each other. Therefore, the lead component 410 at a position away from the side wall portion 228 is divided into pickup target components 410t.
  • the side surface 428 and the side wall The clearance with the portion 228 is 0 or almost does not exist. That is, the claw portion 338 of the component holder 332 cannot be inserted between the side surface 428 and the side wall portion 228. For this reason, the lead component 410 whose side surface 428 is in contact with or close to the side wall portion 228 cannot be held by the component holder 332.
  • the surface 460 facing the bottom surface 415 of the lead component 410 is in contact with or close to the side wall portion 228.
  • the claw portion 338 of the component holder 332 can be inserted between the side surface 428 and the side wall portion 228, and the lead component 410 can be held by the component holder 332.
  • the side surface 428 of the lead component 410 is clamped by the claw portion 338 of the component holder 332, but the entire side surface 428 is not clamped by the claw portion 338, and the central portion of the side surface 428 is clamped by the claw portion 338. It is pinched by. That is, the lead component 410 can be held by the component holder 332 if a predetermined clearance exists between the center portion of the side surface 428 and the side wall portion 228.
  • the leads are read based on the imaging data of the imaging device 88.
  • the position of the pair of side surfaces 428 of the component 410 is detected, and the separation distance between the center portion of each side surface 428 and the side wall portion 228 is calculated.
  • it is determined whether or not the separation distance is greater than or equal to the set distance and the lead component 410 that is determined to be greater than or equal to the set distance is classified as a pickup target component 410t, and the separation distance is determined to be less than the set distance.
  • the lead component 410 is divided into non-pickup target components 410s.
  • the set distance may be any distance as long as the claw portion 338 can be inserted.
  • the set distance can be set slightly longer than the distance corresponding to the thickness of the claw portion 338.
  • the lead component 410 may be classified as a non-pickup target component 410s when two or more lead components 410 are approaching.
  • the two lead components 410 are located at the center of the component support plate 226, the side surface 428 of one lead component 410 of the two lead components 410, and the other The surface 460 facing the bottom surface 415 of the lead component 410 may be in contact with or in close proximity.
  • the other lead component 410 since the other lead component 410 is in contact with or close to the side surface 428 of one lead component 410 of the two lead components 410, the one lead component 410 can be gripped. Can not. However, since one lead component 410 is not in contact with or close to the side surface 428 of the other lead component 410 of the two lead components 410, the other lead component 410 can be gripped. .
  • the separation distance between the center of each side surface 428 of the part to be picked up and the part other than the part is calculated. Then, it is determined whether or not the separation distance is greater than or equal to the set distance, and the lead component 410 that is determined to be greater than or equal to the set distance is classified as a pickup target component 410t, and the separation distance is determined to be less than the set distance.
  • the lead component 410 is divided into non-pickup target components 410s.
  • the lead component 410 scattered on the component support plate 226 is changed into the pickup target component 410t and the non-pickup target component 410s.
  • sorting it is possible to pick up many lead components 410 from the component support plate 226.
  • the component support plate 226 is compared with the pickup target component 410t based on the imaging data. Information such as the position above and the posture of the lead component 410 is acquired.
  • the pickup target component 410t is gripped by the component holder 332 based on position information, posture information, and the like.
  • the position on the XY coordinate of the pickup target component 410t on the component support plate 226 is calculated based on the imaging data.
  • the position on the XY coordinate of the pickup target component 410t is calculated with reference to a preset reference position mark (for example, written in advance on the component support plate 226).
  • the operation of the component holding head moving device 300 is controlled, and the component holding head 302 is moved above the pickup target component 410t.
  • the posture of the pickup target component 410t on the component support plate 226 is calculated as an angle ⁇ between the reference line A on the XY coordinates and the reference line B of the pickup target component 410t.
  • the reference line A on the XY coordinates is set as a line parallel to the X direction or the Y direction
  • the reference line B of the pickup target component 410t is set as a line parallel to the lead 414.
  • an angle ⁇ at which the reference line A and the reference line B intersect counterclockwise is calculated based on the imaging data.
  • the operation of the holder rotating device 335 is controlled so that the pair of claws 338 of the component holder 332 and the pair of side surfaces 428 of the pickup target component 410t are opposed to each other. Then, the component holder 332 is rotated. Accordingly, the pickup target component 410t is gripped on the pair of side surfaces 428 by the pair of claw portions 338 of the component holder 332.
  • the part holder 332 is located at the non-turning position. Then, after the pickup target component 410t is held by the component holder 332, the component holding head 302 is moved above the component carrier 388. At this time, the component carrier 388 is operated by the operation of the component carrier moving device 390. Moved to the parts receiving position. Then, when the component holding head 302 moves above the component carrier 388, the component holder 332 is turned to the turning position. However, since the turning direction of the component holder 332 is one direction, the lead 414 of the lead component 410 held by the component holder 332 at the turning position may not face downward in the vertical direction.
  • the holding posture by the component holder 332 is set to be picked up on the component support plate 226 so that the lead 414 of the lead component 410 held by the component holder 332 in the turning position faces downward in the vertical direction. Calculation is performed based on the posture information of the component 410t.
  • the component holder 332 is rotated by the holder rotation device 335 before holding the pickup target component 410t so that the pickup target component 410t can be held in the calculated holding posture.
  • the pickup target component 410t is held by the component holder 332, that is, when the pair of side surfaces 428 of the pickup target component 410t is gripped by the pair of claw portions 338, the reference line A and the reference line A Based on the angle ⁇ formed with the line B and the holding posture by the component holder 332, the component holder 332 is rotated by the holder rotation device 335. Thereby, in the lead component 410 held by the component holder 332 in the turning position, the lead 414 is directed downward in the vertical direction.
  • the lead component 410 with the lead 414 facing downward in the vertical direction is inserted into the component receiving member 392 along the guide surface 426. .
  • the lead component 410 is placed on the component receiving member 392 with the lead 414 facing downward in the vertical direction.
  • the component carrier 388 moves to the component supply position by the operation of the component carrier moving device 390. Since the component carrier 388 moved to the component supply position is located in the movement range of the work heads 60 and 62, the lead component 410 is supplied at this position in the loose component supply device 32.
  • the lead component 410 placed on the component receiving member 392 of the component carrier 388 at the component supply position is held by the component holder 66 of the work heads 60 and 62.
  • the lead component 410 is supplied in a state where the lead 414 faces downward and the surface facing the surface to which the lead 414 is connected faces upward. For this reason, the lead component 410 can be appropriately held by the component holding head 302.
  • the moving range of the component holding head 302 by the component holding head moving device 300 and the moving range of the camera 290 by the camera moving device 292 are different as described above. For this reason, it is possible to obtain the position information of the pickup target component and the like with the camera 290 positioned on the component support member 220 for each pickup of the pickup target component by the component holding head 302. Specifically, the lead component 410 on the component support member 220 is imaged by the camera 290 located on the component support member 220. Then, based on the imaging data, a pickup operation by the component holding head 302 is performed, and the picked up pickup target component is placed on the component receiving member 392.
  • the component holding head 302 has moved above the component carrier 388 of the shuttle device 304 and is not positioned above the component support member 220. Therefore, the lead component 410 on the component support member 220 is imaged by the camera 290 at the timing when the component holding head 302 is moved above the component carrier 388. Based on this imaging data, a new pickup target component is picked up by the component holding head 302. Thereby, it becomes possible to perform a pick-up work based on the latest information, and it is possible to ensure an appropriate pick-up work.
  • the individual control device 452 is a functional unit that determines whether the lead component 410 on the component support plate 226 is the pickup target component 410t or the non-pickup target component 410s.
  • a determination unit 470 is included.
  • the individual control device 452 is configured such that the component holding head moving device 300 and the component holding head 302 hold the lead component 410 determined by the determination unit 470 as the pickup target component 410t by the component holder 332.
  • An operation control unit 472 is provided as a functional unit that controls the operation.
  • the component collection container 262 is moved by the operation of the container lifting device 260 as shown in FIG. ,To rise.
  • the shutter 265 is raised by the elastic force of the coil spring 282 to block the front of the inclined plate 152 of the component feeder 82 as shown in FIG. As a result, discharge of the lead component 410 from the component supplier 82 is prevented.
  • the projecting pins 272 arranged in the parts collection container 262 engage with the engagement blocks 274 arranged inside the side frame portion 190. Thereby, as shown in FIG. 10, the component collection container 262 rotates. At this time, the bottom surface of the component collection container 262 is vertical, and the wall surface of the component collection container 262 on the component container 100 side is an inclined surface toward the component container 100. For this reason, all the lead components 410 in the component collection container 262 are returned to the interior of the component container 100.
  • the loose component supply device 32 even when the lead components 410 scattered on the component support plate 226 are picked up by the component holder 332, even if the lead component 410 is close to the side wall 228, the component holder Picked up by 332. For this reason, the number of lead components 410 returned to the component container 100 can be reduced.
  • the lead component 410 when the lead component 410 is returned to the inside of the component container 100, the lead component 410 is supplied by the component supply unit 98 that is different from the component supply unit 98 in which the lead component 410 is returned. It is possible. Specifically, when the cam follower 242 is engaged with the cam member 240 and the component feeder 82 is vibrating, the lead component 410 is discharged onto the component support member 220. Therefore, the lead components 410 are scattered on the side of the component support member 220 away from the component feeder 82, that is, on the upper surface on the front side. On the other hand, as shown in FIG. 25, the component collection container 262 rises at the position closest to the component supplier 82, and the lead component 410 in the component collection container 262 is returned to the component container 100.
  • the component holding head 302 It does not interfere with the parts collection container 262. Thereby, the return operation of the lead component 410 in the predetermined component supply unit 98 and the supply operation of the lead component 410 in the predetermined component supply unit 98 and another component supply unit 98 can be performed simultaneously. is there.
  • the engaging member 184 When the engaging member 184 reaches the upper end of the second notch 182, the engaging member 184 falls to the lower end of the second notch 182 due to the weight of the component feeder 82. Thereby, the engagement of the claw member 216 attached to the lower end of the movable gripping member 172 with the engagement rod 214 is released, and the component feeder 82 is removed from the frame 96, that is, between the pair of side frame portions 190. It becomes possible.
  • the component container 100 swings upward around the support shaft 134 inside the housing 102. .
  • the end portion on the front side of the inclined surface 116 of the component container 100 approaches or contacts the tip portion of the brush 144. This makes it possible to prevent the lead component 410 from being discharged from the inside of the component container 100 when the component supplier 82 is removed from the frame 96. Further, even when the lead component 410 is sandwiched between the brush 144 and the inclined surface 116, the lead component 410 can be prevented from being damaged by the elastic deformation of the brush 144.
  • the engaging member 184 of the movable gripping member 172 has fallen into the lower end of the second notch 182 of the fixed gripping member 170, after the operator removes the component feeder 82 from the frame 96, Even if the hand is released, the movable gripping member 172 does not swing due to the elastic force of the spring, and the position of the component container 100 is maintained. For this reason, even if the operator removes the hand from the grip 104 after removing the parts supplier 82 from the frame 96, the inclined surface 116 of the parts container 100 and the tip of the brush 144 are close to each other. Or the lead component 410 is prevented from being discharged from the inside of the component container 100.
  • the component supplier 82 is removed from the frame 96, the component supplier 82 corresponding to the new type of lead component 410 is inserted between the pair of side frame portions 190.
  • the notch 196 formed at the lower end of the side wall 120 of the component feeder 82 is engaged with the engagement pin 192 of the side frame 190, and as shown in FIG.
  • the engaging pin 206 provided at the front end portion of the side wall 120 is engaged with the inclined surface 202 of the support member 200 of the side frame portion 190.
  • the component supplier 82 is positioned between the pair of side frame portions 190.
  • the movable gripping member 172 swings away from the fixed gripping member 170 by the elastic force of the spring. .
  • the claw member 216 attached to the lower end portion of the movable gripping member 172 engages with the engagement rod 214.
  • the component supplier 82 is locked to the frame 96.
  • the component container 100 swings downward about the support shaft 134 inside the housing 102.
  • the front end portion of the inclined surface 116 of the component container 100 moves downward, and an opening is formed between the tip end portion of the brush 144 and the inclined surface 116.
  • the lead component 410 put into the component container 100 can be discharged from the storage unit 112. In this way, in the bulk component supply device 32, the lead component 410 to be supplied can be easily replaced by replacing the component supplier 82.
  • ID information is transmitted from the RFID 217 of the component supplier 82 newly attached to the frame 96, and the receiver 218 provided in the frame main body 210 of the frame 96. Receives the ID information. Based on the ID information, the lead component 410 supplied by the component supplier 82 newly attached to the frame 96 is collated.
  • the bulk component supply device 32 is an example of a component supply system.
  • the component supplier 82 is an example of a storage unit.
  • the imaging device 88 is an example of an imaging device.
  • the component support member 220 is an example of a component support portion.
  • the component support plate 226 is an example of a component support surface.
  • the side wall part 228 is an example of a wall surface.
  • the component holding head moving device 300 is an example of a moving device.
  • the component holder 332 is an example of a holder.
  • the claw part 338 is an example of a claw part.
  • the side surface 428 is an example of a gripping surface.
  • the individual control device 452 is an example of a control device.
  • the determination unit 470 is an example of a determination unit.
  • the operation control unit 472 is an example of an operation control unit.
  • this invention is not limited to the said Example, It is possible to implement in the various aspect which gave various change and improvement based on the knowledge of those skilled in the art.
  • the lead component 410 having the lead 414 is employed as a component to be held by the component holder 332, but a component without a lead can be employed.
  • a pair of surfaces sandwiched by a pair of claws 338 of the component holder 332 (hereinafter may be referred to as “planned clamping surface”) is set in advance. Yes.
  • a component holder 332 sandwiched by the claw portion 338 that is, a so-called chuck-type holder, is used as a holder for holding the component. It is possible to employ a suction nozzle to be held. The suction nozzle sucks and holds the surface facing upward of the component placed on the component support plate 226. When the component is located near the side wall portion 228, the suction nozzle approaches the component. In addition, there is a possibility that the suction nozzle and the side wall portion 228 come into contact with each other.
  • a part whose distance from the side wall part 228 is equal to or larger than the set distance is a pickup target part 410t, and a part whose distance from the side wall part 228 is less than the set distance is a non-pickup target part 410s. Is done. This makes it possible to prevent contact between the suction nozzle and the side wall portion 228.
  • the set distance at this time can be set according to the size of the suction nozzle in the radial direction, the height of the side wall portion 228, and the like.
  • the lead component 410 on the component support member 220 is picked up by the component holder 332 of the component holding head 302.
  • the lead component 410 on the component support member 220 is used as the work heads 60 and 62. It can be picked up by the component holder 66.
  • the lead component 410 on the component support member 220 can be imaged by the imaging device 26 by expanding the movable range of the work heads 60 and 62 above the component support member 220. is there. Thereby, based on the imaging data of the imaging device 26, position information, posture information, and the like of the lead component 410 are calculated.
  • the lead component 410 on the component support member 220 can be picked up by the component holder 66 of the work heads 60 and 62 by controlling the operation of the work head moving device 64 based on the calculated information. It becomes. Incidentally, when the lead component 410 on the component support member 220 is picked up by the component holder 66 of the work heads 60 and 62, the component supplier 82 of the bulk component supply device 32, the component scattered state realization device 84, and the imaging.
  • the device 26 and the component mounting device 24 constitute the “component supply system” of the present invention.
  • Component supply device (component supply system) 82: Component supply device (storage unit) 88: Imaging device 220: Component support member (component support unit) 226: Component support plate (component support surface) 228: Side wall (wall surface) ) 300: Component holding head moving device (moving device) 332: Component holding device (holding device) 338: Claw portion 428: Side surface (gripping surface) 452: Individual control device (control device) 470: Determination unit 472: Operation control unit

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Human Computer Interaction (AREA)
  • Robotics (AREA)
  • Supply And Installment Of Electrical Components (AREA)
  • Manipulator (AREA)

Abstract

In a scattered part supply device for supplying lead parts (410) from a part support member (220) configured from a part support plate (226) that supports multiple lead parts (410) discharged from a part feeder in a scattered state and a side wall (228) for keeping the lead parts (410) from falling from the part support plate (226), the lead parts (410) on the part support member (220) are imaged by an imaging device and on the basis of the imaging data from said imaging device, a determination is made whether or not, when the lead parts are held by a part holder, the side wall (228) or a part other than the intended lead part (410) will interfere with the part holder. Only the lead parts (410) for which it is determined that the side wall (228) or a part other than the intended lead part (410) will not interfere with the part holder are held by the part holder. As a result, lead parts (410) can be picked up without contact with the side wall, etc. and usability of the part supply system is improved.

Description

部品供給システムParts supply system
 本発明は、複数の部品を散在された状態で支持する部品支持部を備えた部品供給システムに関するものである。 The present invention relates to a component supply system including a component support portion that supports a plurality of components in a scattered state.
 部品供給システムには、複数の部品を収納する収納部の開口から排出された複数の部品が、部品支持部の上に散在され、部品支持部の上に散在された部品が、部品保持ロボット等の作動により、ピックアップされる装置がある。下記特許文献には、このような部品供給装置の一例が記載されている。 In the component supply system, a plurality of components discharged from an opening of a storage unit that stores a plurality of components are scattered on the component support unit, and the components scattered on the component support unit are component holding robots, etc. There is a device picked up by the operation of. The following patent document describes an example of such a component supply apparatus.
特開平10-202569号公報Japanese Patent Laid-Open No. 10-202569
 本発明の課題は、部品支持部から安定的に部品を供給することである。 An object of the present invention is to stably supply components from a component support portion.
 上記課題を解決するために、本発明に記載の部品供給システムは、複数の部品を収納する収納部と、前記収納部から排出された複数の部品を散在された状態で支持する部品支持面と、前記部品支持面からの部品の脱落を防止するための壁面とを有する部品支持部と、前記部品支持面により支持されている部品を撮像する撮像装置と、前記部品支持面により支持されている部品を保持する保持具と、前記保持具を前記部品支持面の上方において任意の位置に移動させる移動装置と、前記保持具と前記移動装置との作動を制御する制御装置とを備え、前記制御装置が、前記撮像装置により撮像された画像の画像データに基づいて、前記保持具による保持対象の部品である対象部品を前記保持具により保持する際に、前記保持具と前記壁面、又は、前記対象部品以外の部品とが干渉するか否かを判定する判定部と、前記判定部によって前記保持具と前記壁面、又は、前記対象部品以外の部品とが干渉しないと判定された前記対象部品のみを、前記保持具によって保持するように、前記保持具と前記移動装置との作動を制御する作動制御部とを有することを特徴とする。 In order to solve the above problems, a component supply system according to the present invention includes a storage unit that stores a plurality of components, and a component support surface that supports a plurality of components discharged from the storage unit in a scattered state. , A component support portion having a wall surface for preventing the component from falling off from the component support surface, an imaging device for imaging a component supported by the component support surface, and supported by the component support surface A holder for holding a component; a moving device for moving the holder to an arbitrary position above the component support surface; and a control device for controlling the operation of the holder and the moving device. When the device holds a target component, which is a component to be held by the holder, based on image data of an image captured by the imaging device, the holder and the wall surface, or A determination unit that determines whether or not a component other than the target component interferes, and the target component that is determined by the determination unit that the holder and the wall surface or a component other than the target component do not interfere with each other. It has an operation control part which controls operation of the holder and the movement device so that only the holder may be held by the holder.
 本発明に記載の部品供給システムによれば、部品支持部から安定的に部品を供給することが可能となる。 According to the component supply system described in the present invention, components can be stably supplied from the component support section.
部品実装装置を示す斜視図であるIt is a perspective view which shows a component mounting apparatus. 部品実装装置の部品装着装置を示す斜視図である。It is a perspective view which shows the component mounting apparatus of a component mounting apparatus. ばら部品供給装置を示す斜視図である。It is a perspective view which shows a bulk parts supply apparatus. 部品供給器を示す斜視図である。It is a perspective view which shows a components feeder. 部品供給ユニットを示す斜視図である。It is a perspective view which shows a components supply unit. 部品供給器を示す断面図である。It is sectional drawing which shows a component feeder. 部品供給器のグリップの下端部を示す拡大図である。It is an enlarged view which shows the lower end part of the grip of a components feeder. 部品支持部材が退避位置に移動した状態の部品供給ユニットを示す斜視図である。It is a perspective view which shows the component supply unit of the state which the component support member moved to the retracted position. カム部材およびカムフォロワの拡大図である。It is an enlarged view of a cam member and a cam follower. 部品回収容器が上昇端位置に上昇した状態の部品供給ユニットを示す斜視図である。It is a perspective view which shows the components supply unit of the state which the components collection container raised to the raise end position. 部品回収容器が下降端位置に下降した状態の部品戻し装置を示す斜視図である。It is a perspective view which shows the components return apparatus of the state which the components collection container fell to the descent | fall position. 部品回収容器が下降端位置から上昇している状態の部品戻し装置を示す斜視図である。It is a perspective view which shows the components return apparatus of the state which the components collection container has raised from the falling end position. 部品回収容器が下降端位置からさらに上昇した状態の部品戻し装置を示す斜視図である。It is a perspective view which shows the components return apparatus of the state which the components collection container raised further from the falling end position. 部品引渡し装置を示す斜視図である。It is a perspective view which shows a components delivery apparatus. 部品保持具が非旋回位置に位置している状態の部品保持ヘッドを示す斜視図である。It is a perspective view which shows the component holding head of the state in which the component holder is located in a non-rotation position. 部品保持具を示す図である。It is a figure which shows a component holder. 部品保持具が旋回位置に位置している状態の部品保持ヘッドを示す斜視図である。It is a perspective view which shows the component holding head of the state in which the component holder is located in the turning position. 保持具取付装置を示す概念図である。It is a conceptual diagram which shows a holder attachment apparatus. シャトル装置の部品キャリヤを示す斜視図である。It is a perspective view which shows the components carrier of a shuttle apparatus. 部品キャリヤの部品受け部材を示す断面図である。It is sectional drawing which shows the component receiving member of a component carrier. 制御装置を示すブロック図である。It is a block diagram which shows a control apparatus. 部品散在状態実現装置を示す斜視図である。It is a perspective view which shows a component scattered state implementation | achievement apparatus. 部品支持部材の上に散在された状態のリード部品を示す図である。It is a figure which shows the lead component of the state scattered on the component support member. 部品散在状態実現装置および部品戻し装置を示す斜視図である。It is a perspective view showing a component scattered state realization device and a component return device. 部品戻し装置と部品保持ヘッドとの位置関係を示す図である。It is a figure which shows the positional relationship of a component return apparatus and a component holding head. 部品供給器を示す斜視図である。It is a perspective view which shows a components feeder. 部品供給器を示す断面図である。It is sectional drawing which shows a component feeder.
 以下、本発明を実施するための形態として、本発明の実施例を、図を参照しつつ詳しく説明する。 Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings as modes for carrying out the present invention.
 <部品実装装置の構成>
 図1に、部品実装装置10を示す。部品実装装置10は、回路基材12に対する部品の実装作業を実行するための装置である。部品実装装置10は、装置本体20、基材搬送保持装置22、部品装着装置24、撮像装置26,28、部品供給装置30、ばら部品供給装置32、制御装置(図21参照)34を備えている。なお、回路基材12として、回路基板、三次元構造の基材等が挙げられ、回路基板として、プリント配線板、プリント回路板等が挙げられる。
<Configuration of component mounting device>
FIG. 1 shows a component mounting apparatus 10. The component mounting apparatus 10 is an apparatus for executing a component mounting operation on the circuit substrate 12. The component mounting apparatus 10 includes an apparatus main body 20, a substrate conveyance holding device 22, a component mounting device 24, imaging devices 26 and 28, a component supply device 30, a loose component supply device 32, and a control device (see FIG. 21) 34. Yes. The circuit substrate 12 includes a circuit board, a three-dimensional structure substrate, and the like, and the circuit board includes a printed wiring board and a printed circuit board.
 装置本体20は、フレーム部40と、そのフレーム部40に上架されたビーム部42とによって構成されている。基材搬送保持装置22は、フレーム部40の前後方向の中央に配設されており、搬送装置50とクランプ装置52とを有している。搬送装置50は、回路基材12を搬送する装置であり、クランプ装置52は、回路基材12を保持する装置である。これにより、基材搬送保持装置22は、回路基材12を搬送するとともに、所定に位置において、回路基材12を固定的に保持する。なお、以下の説明において、回路基材12の搬送方向をX方向と称し、その方向に直角な水平の方向をY方向と称し、鉛直方向をZ方向と称する。つまり、部品実装装置10の幅方向は、X方向であり、前後方向は、Y方向である。 The apparatus main body 20 includes a frame portion 40 and a beam portion 42 that is overlaid on the frame portion 40. The substrate conveyance holding device 22 is disposed in the center of the frame portion 40 in the front-rear direction, and includes a conveyance device 50 and a clamp device 52. The conveyance device 50 is a device that conveys the circuit substrate 12, and the clamp device 52 is a device that holds the circuit substrate 12. Thereby, the substrate conveyance holding device 22 conveys the circuit substrate 12 and holds the circuit substrate 12 fixedly at a predetermined position. In the following description, the conveyance direction of the circuit substrate 12 is referred to as an X direction, a horizontal direction perpendicular to the direction is referred to as a Y direction, and a vertical direction is referred to as a Z direction. That is, the width direction of the component mounting apparatus 10 is the X direction, and the front-rear direction is the Y direction.
 部品装着装置24は、ビーム部42に配設されており、2台の作業ヘッド60,62と作業ヘッド移動装置64とを有している。各作業ヘッド60,62は、チャック,吸着ノズル等の部品保持具(図2参照)66を有しており、部品保持具66によって部品を保持する。また、作業ヘッド移動装置64は、X方向移動装置68とY方向移動装置70とZ方向移動装置72とを有している。そして、X方向移動装置68とY方向移動装置70とによって、2台の作業ヘッド60,62は、一体的にフレーム部40上の任意の位置に移動させられる。また、各作業ヘッド60,62は、図2に示すように、スライダ74,76に着脱可能に装着されており、Z方向移動装置72は、スライダ74,76を個別に上下方向に移動させる。つまり、作業ヘッド60,62は、Z方向移動装置72によって、個別に上下方向に移動させられる。 The component mounting device 24 is disposed in the beam portion 42 and includes two work heads 60 and 62 and a work head moving device 64. Each work head 60, 62 has a component holder 66 (see FIG. 2) 66 such as a chuck and a suction nozzle, and holds the component by the component holder 66. The work head moving device 64 includes an X direction moving device 68, a Y direction moving device 70, and a Z direction moving device 72. Then, the two working heads 60 and 62 are integrally moved to arbitrary positions on the frame portion 40 by the X-direction moving device 68 and the Y-direction moving device 70. Further, as shown in FIG. 2, each work head 60, 62 is detachably attached to the sliders 74, 76, and the Z-direction moving device 72 individually moves the sliders 74, 76 in the vertical direction. That is, the work heads 60 and 62 are individually moved in the vertical direction by the Z-direction moving device 72.
 撮像装置26は、下方を向いた状態でスライダ74に取り付けられており、作業ヘッド60とともに、X方向,Y方向およびZ方向に移動させられる。これにより、撮像装置26は、フレーム部40上の任意の位置を撮像する。撮像装置28は、図1に示すように、フレーム部40上の基材搬送保持装置22と部品供給装置30との間に、上を向いた状態で配設されている。これにより、撮像装置28は、作業ヘッド60,62の部品保持具66に保持された部品を撮像する。 The imaging device 26 is attached to the slider 74 in a state of facing downward, and is moved together with the work head 60 in the X direction, the Y direction, and the Z direction. Thereby, the imaging device 26 images an arbitrary position on the frame unit 40. As shown in FIG. 1, the imaging device 28 is disposed between the base material conveyance holding device 22 and the component supply device 30 on the frame portion 40 so as to face upward. Thereby, the imaging device 28 images the components held by the component holder 66 of the work heads 60 and 62.
 部品供給装置30は、フレーム部40の前後方向での一方側の端部に配設されている。部品供給装置30は、トレイ型部品供給装置78とフィーダ型部品供給装置(図示省略)とを有している。トレイ型部品供給装置78は、トレイ上に載置された状態の部品を供給する装置である。フィーダ型部品供給装置は、テープフィーダ(図示省略)によって部品を供給する装置である。 The component supply device 30 is disposed at one end of the frame portion 40 in the front-rear direction. The component supply device 30 includes a tray-type component supply device 78 and a feeder-type component supply device (not shown). The tray-type component supply device 78 is a device that supplies components placed on the tray. The feeder-type component supply device is a device that supplies components by a tape feeder (not shown).
 ばら部品供給装置32は、フレーム部40の前後方向での他方側の端部に配設されている。ばら部品供給装置32は、ばらばらに散在された状態の複数の部品を整列させて、整列させた状態で部品を供給する装置である。つまり、任意の姿勢の複数の部品を、所定の姿勢に整列させて、所定の姿勢の部品を供給する装置である。以下に、部品供給装置32の構成について詳しく説明する。なお、部品供給装置30および、ばら部品供給装置32によって供給される部品として、電子回路部品,太陽電池の構成部品,パワーモジュールの構成部品等が挙げられる。また、電子回路部品には、リードを有する部品,リードを有さない部品等が有る。 The bulk component supply device 32 is disposed at the other end portion of the frame portion 40 in the front-rear direction. The separated component supply device 32 is a device for aligning a plurality of components scattered in a separated state and supplying the components in an aligned state. That is, it is an apparatus that aligns a plurality of components in an arbitrary posture into a predetermined posture and supplies the components in a predetermined posture. Below, the structure of the component supply apparatus 32 is demonstrated in detail. Note that examples of the components supplied by the component supply device 30 and the bulk component supply device 32 include electronic circuit components, solar cell components, and power module components. Electronic circuit components include components having leads and components not having leads.
 ばら部品供給装置32は、図3に示すように、本体80と、部品供給器82と、部品散在状態実現装置84と、部品戻し装置86と、撮像装置88と、部品引渡し装置90とを有している。部品供給器82と部品散在状態実現装置84と部品戻し装置86とは、本体80に固定されたフレーム96に組み付けられており、それら部品供給器82と部品散在状態実現装置84と部品戻し装置86とによって、部品供給ユニット98が構成されている。その部品供給ユニット98は、ばら部品供給装置32では、5つ配設されており、それら5つの部品供給ユニット98が、X方向に1列に並んで配設されている。なお、図3は、ばら部品供給装置32の内部構造を示す図である。 As shown in FIG. 3, the bulk component supply device 32 includes a main body 80, a component supply device 82, a component scattered state realization device 84, a component return device 86, an imaging device 88, and a component delivery device 90. is doing. The component supplier 82, the component scattered state realizing device 84, and the component returning device 86 are assembled to a frame 96 fixed to the main body 80, and the component supplier 82, the component scattered state realizing device 84, and the component returning device 86 are assembled. Thus, a component supply unit 98 is configured. In the bulk component supply device 32, five component supply units 98 are arranged, and these five component supply units 98 are arranged in a line in the X direction. FIG. 3 is a diagram showing an internal structure of the bulk component supply device 32.
 (a)部品供給器
 部品供給器82は、図4および図5に示すように、部品収納器100とハウジング102とグリップ104とを含む。
(A) Component supplier The component supplier 82 includes a component container 100, a housing 102, and a grip 104, as shown in FIGS.
 (i)部品収納器
 部品収納器100は、概して直方体形状をなし、上面と前面とが開口している。部品収納器100の内部は、図6に示すように、1対の傾斜面106,108によって、投入部110と収納部112とに区分けされている。詳しくは、傾斜面106,108は、互いの端部が向かい合うように配設されており、互いの向かい合う端部が下方に位置するように、傾斜面106,108は傾斜している。また、傾斜面106,108の互いに向かい合う端部は、離間しており、傾斜面106,108の互いに向かい合う端部の間には、開口114が形成されている。なお、部品収納器100の開口する前面側に位置する傾斜面106の斜度は、傾斜面108の斜度より緩やかであり、傾斜面106の開口114側の端部は、傾斜面108の開口114側の端部より上方に位置している。また、開口114は、部品収納器100に収容される部品より大きく開口している。
(I) Component container The component container 100 has a generally rectangular parallelepiped shape, and an upper surface and a front surface are open. As shown in FIG. 6, the interior of the component container 100 is divided into a loading part 110 and a storage part 112 by a pair of inclined surfaces 106 and 108. Specifically, the inclined surfaces 106 and 108 are disposed so that the ends of the inclined surfaces 106 and 108 face each other, and the inclined surfaces 106 and 108 are inclined so that the opposite ends of each other are positioned below. Further, the end portions of the inclined surfaces 106 and 108 facing each other are separated from each other, and an opening 114 is formed between the end portions of the inclined surfaces 106 and 108 facing each other. It should be noted that the slope of the inclined surface 106 located on the front side where the component container 100 opens is gentler than the inclination of the inclined surface 108, and the end of the inclined surface 106 on the opening 114 side is the opening of the inclined surface 108. It is located above the end on the 114 side. Further, the opening 114 is larger than the component accommodated in the component container 100.
 このような構造により、部品収納器100の開口する上面から投入部110に、複数の部品が投入されると、それら複数の部品は、傾斜面106,108を転がり、開口114から収納部112に収納される。なお、収納部112の底面、つまり、部品収納器100の底面は、傾斜面116となっており、部品収納器100の開口する前面に向かって傾斜している。 With such a structure, when a plurality of parts are put into the loading unit 110 from the upper surface where the parts container 100 opens, the plurality of parts roll on the inclined surfaces 106 and 108, and from the opening 114 to the housing part 112. Stored. Note that the bottom surface of the storage portion 112, that is, the bottom surface of the component storage device 100 is an inclined surface 116, which is inclined toward the front surface of the component storage device 100 that opens.
 (ii)ハウジング
 ハウジング102は、図4および図5に示すように、1対の側壁120を有している。それら1対の側壁120は、概して矩形をなし、部品収納器100を挟むように、対向して配設されている。各側壁120の後方側の端部には、コの字型に突出する1対の突出部122,124が形成されている。1対の側壁120は、突出部122,124において、連結部材126,128によって連結されている。また、1対の側壁120は、前方側の端部において、連結ロッド130によって連結され、下端部において、連結ロッド132によって連結されている。なお、1対の側壁120の間の寸法は、1対の側壁120によって挟まれる部品収納器100の幅より僅かに長い。
(Ii) Housing As shown in FIGS. 4 and 5, the housing 102 has a pair of side walls 120. The pair of side walls 120 are generally rectangular and are disposed to face each other so as to sandwich the component container 100. A pair of projecting portions 122 and 124 projecting in a U-shape are formed at the rear end portion of each side wall 120. The pair of side walls 120 are connected by connecting members 126 and 128 at the protrusions 122 and 124. The pair of side walls 120 are connected by a connecting rod 130 at the front end and connected by a connecting rod 132 at the lower end. The dimension between the pair of side walls 120 is slightly longer than the width of the component container 100 sandwiched between the pair of side walls 120.
 1対の側壁120には、突出部122の基端部において、支持軸134が架け渡されており、部品収納器100は、後方側の下端部において、支持軸134により搖動可能に支持されている。つまり、部品収納器100は、ハウジング102の内部において、支持軸134を中心に搖動する。また、1対の側壁120には、上端部において、棒状のストッパ136が架け渡されており、下端部において、棒状のストッパ138が架け渡されている。部品収納器100は、ストッパ136により、上方への搖動が規制され、ストッパ138により、下方への搖動が規制されている。 A support shaft 134 is bridged between the pair of side walls 120 at the base end portion of the projecting portion 122, and the component container 100 is slidably supported by the support shaft 134 at the lower end portion on the rear side. Yes. That is, the component container 100 swings around the support shaft 134 inside the housing 102. Further, a bar-shaped stopper 136 is bridged between the pair of side walls 120 at the upper end, and a bar-shaped stopper 138 is bridged at the lower end. In the parts container 100, the stopper 136 is restricted from swinging upward, and the stopper 138 is restricted from swinging downward.
 部品収納器100の側壁の前方側には、切欠部140が形成されており、その切欠部140に位置するように、1対の側壁120に、ブラシ保持部材142が架け渡されている。これにより、部品収納器100は、ブラシ保持部材142に当接することなく、ハウジング102の内部において搖動する。そのブラシ保持部材142の下端部には、ブラシ144が下方の延び出すように、固定されている。ブラシ144は、板状に成形されており、板状に成形されたブラシ144の幅方向の寸法は、部品収納器100の内部の幅方向の寸法より僅かに小さい。これにより、部品収納器100が上方に搖動する際に、ブラシ144は、部品収納器100の内部に向かって相対的に移動する。 A notch 140 is formed on the front side of the side wall of the component container 100, and a brush holding member 142 is bridged between the pair of side walls 120 so as to be positioned in the notch 140. As a result, the component container 100 swings inside the housing 102 without contacting the brush holding member 142. The brush 144 is fixed to the lower end portion of the brush holding member 142 so as to extend downward. The brush 144 is formed in a plate shape, and the size of the brush 144 formed in the plate shape in the width direction is slightly smaller than the size in the width direction inside the component container 100. Thereby, when the component storage device 100 swings upward, the brush 144 relatively moves toward the inside of the component storage device 100.
 また、1対の側壁120の間には、図5に示すように、部品収納器100の前面の下端部の前方に位置するように、部品排出部材150が固定的に配設されている。部品排出部材150は、傾斜板152と、その傾斜板152の幅方向での両端部に立設された1対の側板(ただし、図5では1対の側板の一方のみが図示されている)154を含む。傾斜板152は、3つの異なる傾斜面によって構成されている。まず、部品収納器100に最も近い第1の傾斜面156は、部品収納器100の傾斜面116と同じ方向に傾斜しており、その傾斜面116と同程度に傾斜している。第1の傾斜面156に連続する第2の傾斜面158は、第1の傾斜面156と同じ方向に傾斜しており、その第1の傾斜面156より急な角度で傾斜している。第2の傾斜面158に連続する第3の傾斜面160は、第2の傾斜面158と同じ方向に傾斜しており、概ね鉛直方向に傾斜している。 Further, as shown in FIG. 5, a component discharge member 150 is fixedly disposed between the pair of side walls 120 so as to be positioned in front of the lower end portion of the front surface of the component container 100. The component discharge member 150 includes an inclined plate 152 and a pair of side plates provided upright at both ends in the width direction of the inclined plate 152 (however, only one of the pair of side plates is shown in FIG. 5). 154. The inclined plate 152 is composed of three different inclined surfaces. First, the first inclined surface 156 closest to the component container 100 is inclined in the same direction as the inclined surface 116 of the component container 100, and is inclined to the same extent as the inclined surface 116. The second inclined surface 158 that is continuous with the first inclined surface 156 is inclined in the same direction as the first inclined surface 156, and is inclined at a steeper angle than the first inclined surface 156. The third inclined surface 160 continuing to the second inclined surface 158 is inclined in the same direction as the second inclined surface 158, and is substantially inclined in the vertical direction.
 (iii)グリップ
 グリップ104は、図4に示すように、固定把持部材170と可動把持部材172とによって構成されている。固定把持部材170は、四角筒形状をなし、1つの側面が開口している。固定把持部材170は、開口する側面を1対の側壁120の間に向けた状態で、上端部において、連結部材128に固定され、下端部において、連結部材126に固定されている。また、可動把持部材172も、四角筒形状をなし、1つの側面が開口している。可動把持部材172の幅方向の寸法は、固定把持部材170の幅方向の寸法より僅かに小さい。そして、可動把持部材172は、それの開口する側面と固定把持部材170の開口する側面とが向かい合うように、固定把持部材170の内部に嵌め入れられている。
(Iii) Grip The grip 104 includes a fixed holding member 170 and a movable holding member 172, as shown in FIG. The fixed gripping member 170 has a rectangular tube shape, and one side surface is open. The fixed gripping member 170 is fixed to the connecting member 128 at the upper end portion and fixed to the connecting member 126 at the lower end portion with the side surface that opens between the pair of side walls 120. Further, the movable gripping member 172 also has a square cylindrical shape, and one side surface is open. The dimension in the width direction of the movable gripping member 172 is slightly smaller than the dimension in the width direction of the fixed gripping member 170. The movable gripping member 172 is fitted into the fixed gripping member 170 so that the side surface of the movable gripping member 172 faces the side surface of the fixed gripping member 170 opened.
 また、1対の側壁120には、突出部122において、支持軸174が架け渡されており、可動把持部材172が、下端部において、支持軸174により搖動可能に支持されている。つまり、可動把持部材172は、下端部を中心に搖動し、可動把持部材172の上端部が、固定把持部材170に接近・離間する。その可動把持部材172は、上端部において、連結アーム176によって部品収納器100の後面に連結されている。このため、可動把持部材172の搖動に伴って、部品収納器100も搖動する。つまり、可動把持部材172の上端部が固定把持部材170から離間する方向に搖動すると、部品収納器100は、下方に向かって搖動する。一方、可動把持部材172の上端部が固定把持部材170に接近する方向に搖動すると、部品収納器100は、上方に向かって搖動する。 Further, a support shaft 174 is stretched over the pair of side walls 120 at the protruding portion 122, and the movable gripping member 172 is supported by the support shaft 174 at the lower end portion so as to be swingable. That is, the movable gripping member 172 swings around the lower end portion, and the upper end portion of the movable gripping member 172 approaches and separates from the fixed gripping member 170. The movable gripping member 172 is connected to the rear surface of the component container 100 by a connecting arm 176 at the upper end. For this reason, as the movable gripping member 172 swings, the parts container 100 also swings. That is, when the upper end portion of the movable gripping member 172 swings in a direction away from the fixed gripping member 170, the component container 100 swings downward. On the other hand, when the upper end portion of the movable gripping member 172 swings in a direction approaching the fixed gripping member 170, the component container 100 swings upward.
 また、固定把持部材170の側面には、切欠部178が形成されている。切欠部178は、固定把持部材170の開口する側面から内部に向かって、概して水平方向に切り欠かれる第1切欠部180と、第1切欠部180の内部側の端部から下方に向かって切り欠かれる第2切欠部182とによって構成されている。一方、可動把持部材172の側面には、切欠部178に係合する係合部材184が固定されている。また、固定把持部材170と可動把持部材172との間には、スプリング(図示省略)が圧縮された状態で配設されている。このため、可動把持部材172は、スプリングの弾性力によって、固定把持部材170から離れる方向に付勢されている。この際、可動把持部材172の係合部材184は、切欠部178の第1切欠部180に係合している。 Further, a notch 178 is formed on the side surface of the fixed gripping member 170. The notch 178 includes a first notch 180 that is notched in a horizontal direction from the open side of the fixed gripping member 170 toward the inside, and a downward notch from the inner end of the first notch 180. A second cutout portion 182 is formed. On the other hand, an engaging member 184 that engages with the notch 178 is fixed to the side surface of the movable gripping member 172. A spring (not shown) is compressed between the fixed gripping member 170 and the movable gripping member 172. For this reason, the movable gripping member 172 is biased in a direction away from the fixed gripping member 170 by the elastic force of the spring. At this time, the engaging member 184 of the movable gripping member 172 is engaged with the first notch portion 180 of the notch portion 178.
 つまり、通常時において、可動把持部材172は固定把持部材170から離れる方向に付勢されており、可動把持部材172の上端部は、固定把持部材170から離間する方向に搖動している。そして、部品収納器100は、下方に向かって搖動し、図6に示すように、部品収納器100は、ストッパ138に当接する。この際、部品収納器100の傾斜面116の前方側の端部は、傾斜板152の第1の傾斜面156の後方側の端部と、殆ど隙間なく向かい合っている。また、部品収納器100が下方に向かって搖動している際には、ブラシ144は、部品収納器100の内部に向かって相対的に移動しないため、ブラシ144の下端部と部品収納器100の傾斜面116との間は、大きく開口している。このため、通常時には、部品収納器100の収納部112に収納されている部品が、傾斜板152の上面に転がり落ちる。 That is, in a normal state, the movable gripping member 172 is biased in a direction away from the fixed gripping member 170, and the upper end portion of the movable gripping member 172 swings in a direction away from the fixed gripping member 170. The component container 100 swings downward, and the component container 100 contacts the stopper 138 as shown in FIG. At this time, the front end portion of the inclined surface 116 of the component container 100 faces the rear end portion of the first inclined surface 156 of the inclined plate 152 with almost no gap. Further, when the parts container 100 is swinging downward, the brush 144 does not move relatively toward the inside of the parts container 100, so that the lower end portion of the brush 144 and the parts container 100 are not moved. A large opening is formed between the inclined surface 116 and the inclined surface 116. For this reason, normally, the components stored in the storage portion 112 of the component storage device 100 roll down on the upper surface of the inclined plate 152.
 また、部品供給器82は、フレーム96に着脱可能に取り付けられる。詳しくは、フレーム96は、図4に示すように、1対のサイドフレーム部190を有している。それら1対のサイドフレーム部190は、概して板状をなし、所定距離、離れた状態で向かい合うように配設されている。1対のサイドフレーム部190の間の距離は、部品供給器82の幅方向の寸法、つまり、1対の側壁120の間の距離より僅かに長い。このため、1対のサイドフレーム部190の間に、部品供給器82が挿入される。 Also, the component supplier 82 is detachably attached to the frame 96. Specifically, the frame 96 has a pair of side frame portions 190 as shown in FIG. The pair of side frame portions 190 are generally plate-shaped and are arranged to face each other at a predetermined distance. The distance between the pair of side frame portions 190 is slightly longer than the dimension in the width direction of the component feeder 82, that is, the distance between the pair of side walls 120. For this reason, the component supplier 82 is inserted between the pair of side frame portions 190.
 また、各サイドフレーム部190の内壁面には、フレーム96の内部に向かって突出する係合ピン192が固定されている。一方、部品供給器82の各側壁120の下縁には、切欠部196が形成されている。また、図5に示すように、各サイドフレーム部190の内壁面には、前後方向に延びるように、長手形状の支持部材200が固定されている。その支持部材200の前方側の端部には、前方に向かうほど下方に向かって傾斜する傾斜面202が形成されている。一方、部品供給器82の各側壁120の外壁面には、係合ピン206が立設されている。そして、1対のサイドフレーム部190の間に、部品供給器82が挿入された際に、係合ピン192が切欠部196に係合し、係合ピン206が支持部材200の傾斜面202において支持される。これにより、部品供給器82が1対のサイドフレーム部190の間において、位置決めされる。 Also, an engagement pin 192 that protrudes toward the inside of the frame 96 is fixed to the inner wall surface of each side frame portion 190. On the other hand, a notch 196 is formed at the lower edge of each side wall 120 of the component supplier 82. Further, as shown in FIG. 5, a longitudinal support member 200 is fixed to the inner wall surface of each side frame portion 190 so as to extend in the front-rear direction. An inclined surface 202 that is inclined downward as it goes forward is formed at the front end of the support member 200. On the other hand, an engagement pin 206 is erected on the outer wall surface of each side wall 120 of the component supplier 82. When the component feeder 82 is inserted between the pair of side frame portions 190, the engagement pin 192 engages with the notch portion 196, and the engagement pin 206 is on the inclined surface 202 of the support member 200. Supported. Thereby, the component supplier 82 is positioned between the pair of side frame portions 190.
 また、図4に示すように、1対のサイドフレーム部190の間において位置決めされた部品供給器82の連結部材126の下方には、フレーム本体部210が配設されている。フレーム本体部210の上面には、図7に示すように、1対の支持ブロック212が、フレーム96の幅方向に並んで固定されている。そして、それら1対の支持ブロック212に係合ロッド214が架け渡されている。また、部品供給器82のグリップ104の可動把持部材172の下端部には、爪部材216が固定されている。爪部材216は、概してL字型をなし、屈曲した先端部が係合ロッド214に向かって延び出している。そして、可動把持部材172がスプリングの弾性力によって固定把持部材170から離れる方向に付勢されている状態、つまり、通常時において、爪部材216の先端部が、係合ロッド214に係合している。これにより、部品供給器82は、1対のサイドフレーム部190の間において位置決めされた状態で、フレーム96にロックされる。 Also, as shown in FIG. 4, a frame main body 210 is disposed below the connecting member 126 of the component supplier 82 positioned between the pair of side frame portions 190. As shown in FIG. 7, a pair of support blocks 212 are fixed to the upper surface of the frame main body 210 side by side in the width direction of the frame 96. An engagement rod 214 is bridged between the pair of support blocks 212. A claw member 216 is fixed to the lower end portion of the movable gripping member 172 of the grip 104 of the component supplier 82. The claw member 216 is generally L-shaped, and a bent tip portion extends toward the engagement rod 214. Then, the movable gripping member 172 is biased in the direction away from the fixed gripping member 170 by the elastic force of the spring, that is, in a normal state, the tip of the claw member 216 is engaged with the engagement rod 214. Yes. As a result, the component supplier 82 is locked to the frame 96 while being positioned between the pair of side frame portions 190.
 また、作業者が、部品供給器82のグリップ104を把持した場合には、可動把持部材172が、スプリングの弾性力に抗して、固定把持部材170に向かって接近する。この際、可動把持部材172の下端部に固定された爪部材216は、係合ロッド214から離れる方向に搖動する。これにより、爪部材216の係合ロッド214への係合が解除される。このため、作業者が部品供給器82のグリップ104を把持した状態で、部品供給器82を持ち上げることで、部品供給器82がフレーム96から取り外される。 Further, when the operator grips the grip 104 of the component supplier 82, the movable gripping member 172 approaches the fixed gripping member 170 against the elastic force of the spring. At this time, the claw member 216 fixed to the lower end portion of the movable gripping member 172 swings in a direction away from the engagement rod 214. Thereby, the engagement of the claw member 216 with the engagement rod 214 is released. For this reason, the component supplier 82 is removed from the frame 96 by lifting the component supplier 82 while the operator holds the grip 104 of the component supplier 82.
 また、グリップ104の固定把持部材170の下端部の内側には、RFID(radio frequency identifierの略)217が配設されている。RFID217は、電波を用いて、近距離無線通信によりID情報を送信するものであり、ID情報として、部品供給器82により供給される部品に関する情報が送信される。一方、フレーム本体部210の上面には、RFID217から送信されたID情報を受信可能な受信器218が配設されている。これにより、ばら部品供給装置32では、フレーム96に部品供給器82が取り付けられている場合に、受信器218によりID情報が受信され、そのID情報に基づいて、部品供給器82により供給される部品が照合される。 In addition, an RFID (abbreviation of radio frequency identifier) 217 is disposed inside the lower end portion of the fixed gripping member 170 of the grip 104. The RFID 217 transmits ID information by short-range wireless communication using radio waves, and information on components supplied by the component supplier 82 is transmitted as ID information. On the other hand, a receiver 218 capable of receiving ID information transmitted from the RFID 217 is disposed on the upper surface of the frame main body 210. Thereby, in the bulk component supply device 32, when the component feeder 82 is attached to the frame 96, the ID information is received by the receiver 218, and is supplied by the component feeder 82 based on the ID information. Parts are verified.
 (b)部品散在状態実現装置
 部品散在状態実現装置84は、図5に示すように、部品支持部材220と部品支持部材移動装置222と供給器振動装置224とを含む。部品支持部材220は、部品支持板226と1対の側壁部228とを含む。部品支持板226は、概して長手形状の板形状をなし、部品供給器82の傾斜板152の下方から前方に延び出すように、配設されている。1対の側壁部228も、板状をなし、部品支持板226の長手方向の両側縁に固定された状態で向かい合っている。なお、各側壁部228は、部品支持板226の上下方向に突出するように、部品支持板226の長手方向の側縁に固定されている。
(B) Component Scattering State Realization Device The component scattering state realization device 84 includes a component support member 220, a component support member moving device 222, and a feeder vibration device 224, as shown in FIG. The component support member 220 includes a component support plate 226 and a pair of side wall portions 228. The component support plate 226 has a generally longitudinal plate shape and is disposed so as to extend forward from below the inclined plate 152 of the component feeder 82. The pair of side wall portions 228 are also plate-shaped and face each other in a state of being fixed to both side edges in the longitudinal direction of the component support plate 226. Each side wall portion 228 is fixed to a side edge in the longitudinal direction of the component support plate 226 so as to protrude in the vertical direction of the component support plate 226.
 部品支持部材移動装置222は、スライダ230とスライド機構232とを含む。スライダ230は、部品支持部材220の側壁部228の下端部に固定されている。スライド機構232は、スライダ230を前後方向に電磁モータ(図21参照)236の駆動により移動させる機構である。これにより、部品支持部材220は、部品供給器82の傾斜板152の下端から僅かに下方において、部品支持板226の上面が水平な状態で、前後方向に移動する。なお、部品支持部材220は、図5に示すように、部品支持板226の略全体が露出する部品供給位置と、図8に示すように、部品支持板226全体が部品供給器82の下方に位置する退避位置との間で移動する。 The component support member moving device 222 includes a slider 230 and a slide mechanism 232. The slider 230 is fixed to the lower end of the side wall 228 of the component support member 220. The slide mechanism 232 is a mechanism for moving the slider 230 in the front-rear direction by driving an electromagnetic motor (see FIG. 21) 236. As a result, the component support member 220 moves in the front-rear direction slightly below the lower end of the inclined plate 152 of the component supplier 82 with the upper surface of the component support plate 226 being horizontal. As shown in FIG. 5, the component support member 220 has a component supply position where substantially the entire component support plate 226 is exposed, and the entire component support plate 226 is located below the component feeder 82 as shown in FIG. Move between the retracted position.
 供給器振動装置224は、図5に示すように、カム部材240とカムフォロワ242とストッパ244とを含む。カム部材240は、板状をなし、側壁部228の外側の側面に、前後方向に延びるように固定されている。カム部材240の上端部には、複数の歯245が前後方向に等間隔で形成されている。複数の歯245の各々は、図9に示すように、後方ほど上方に向かう傾斜面246と、その傾斜面246の上端から鉛直方向に下方に延び出す鉛直面248とによって画定されている。 The feeder vibration device 224 includes a cam member 240, a cam follower 242, and a stopper 244, as shown in FIG. The cam member 240 has a plate shape and is fixed to the outer side surface of the side wall portion 228 so as to extend in the front-rear direction. At the upper end of the cam member 240, a plurality of teeth 245 are formed at equal intervals in the front-rear direction. As shown in FIG. 9, each of the plurality of teeth 245 is defined by an inclined surface 246 that extends upward toward the rear, and a vertical surface 248 that extends downward in the vertical direction from the upper end of the inclined surface 246.
 カムフォロワ242は、ブラケット250とレバー252とローラ254とを含む。ブラケット250は、部品供給器82の側壁120の前方側の下端部に固定されている。レバー252は、上下方向に延びるように配設されており、上端部において、部品供給器82の幅方向に平行な軸線周りに搖動可能に、ブラケット250によって保持されている。ローラ254は、部品供給器82の幅方向に平行な軸線周りに回転可能に、レバー252の下端部によって保持されている。なお、レバー252は、コイルばね(図示省略)の弾性力によって前方に向かう方向に付勢されている。 The cam follower 242 includes a bracket 250, a lever 252 and a roller 254. The bracket 250 is fixed to the lower end portion on the front side of the side wall 120 of the component supplier 82. The lever 252 is disposed so as to extend in the vertical direction, and is held by the bracket 250 at the upper end portion so as to be swingable around an axis parallel to the width direction of the component feeder 82. The roller 254 is held by the lower end of the lever 252 so as to be rotatable around an axis parallel to the width direction of the component supplier 82. The lever 252 is biased in the forward direction by the elastic force of a coil spring (not shown).
 ストッパ244は、ブラケット250に突状に設けられており、コイルばねの弾性力により付勢されたレバー252が、ストッパ244に接触している。つまり、ストッパ244は、レバー252の前方側への搖動を規制している。なお、レバー252は、前方への搖動が規制された状態において、図5に示すように、鉛直方向において下方に延び出す姿勢となっている。 The stopper 244 is provided on the bracket 250 in a protruding shape, and a lever 252 biased by the elastic force of the coil spring is in contact with the stopper 244. That is, the stopper 244 restricts the forward movement of the lever 252. Note that the lever 252 has a posture of extending downward in the vertical direction as shown in FIG. 5 in a state in which the forward swing is restricted.
 (c)部品戻し装置
 部品戻し装置86は、図10に示すように、容器昇降装置260と部品回収容器262と運動変換機構264とシャッタ265とを含む。容器昇降装置260は、エアシリンダ266と昇降部材268とを含む。エアシリンダ266は、ピストンロッド270を有しており、ピストンロッド270が上下方向に伸縮するように、部品支持部材220の前方側に配設されている。そのエアシリンダ266は、スライダ230の前方側の端部に固定されている。これにより、エアシリンダ266は、部品支持部材移動装置222の作動により、部品支持部材220と共に前後方向に移動する。また、昇降部材268は、ピストンロッド270の先端部に固定されており、その昇降部材268の上面に、部品回収容器262が配設されている。これにより、部品回収容器262は、エアシリンダ266の作動により、上下方向に移動する。この際、部品回収容器262は、図10に示すように、部品供給器82より上方に位置する上昇端位置と、図11に示すように、部品支持部材220の部品支持板226より下方に位置する下降端位置との間で移動する。
(C) Component Return Device The component return device 86 includes a container lifting / lowering device 260, a component recovery container 262, a motion conversion mechanism 264, and a shutter 265, as shown in FIG. The container lifting device 260 includes an air cylinder 266 and a lifting member 268. The air cylinder 266 has a piston rod 270, and is disposed on the front side of the component support member 220 so that the piston rod 270 expands and contracts in the vertical direction. The air cylinder 266 is fixed to the end portion on the front side of the slider 230. Thus, the air cylinder 266 moves in the front-rear direction together with the component support member 220 by the operation of the component support member moving device 222. The elevating member 268 is fixed to the tip of the piston rod 270, and a component collection container 262 is disposed on the upper surface of the elevating member 268. Thereby, the parts collection container 262 moves in the vertical direction by the operation of the air cylinder 266. At this time, the component collection container 262 is positioned at a rising end position above the component feeder 82 as shown in FIG. 10 and below the component support plate 226 of the component support member 220 as shown in FIG. It moves to and from the descending end position.
 部品回収容器262は、上面が開口する箱状をなし、昇降部材268の上面において、部品供給器82の幅方向に平行な軸線周りに回動可能に保持されている。これにより、部品回収容器262は、それの底面が水平となり、開口から部品を受け入れ可能な部品受け姿勢(図11における部品回収容器262の姿勢)と、それの底面が鉛直となり、開口から部品を排出可能な部品排出姿勢(図10における部品回収容器262の姿勢)との間で回動する。なお、部品回収容器262は、コイルばね(図示省略)によって、部品受け姿勢となる方向に付勢されている。これにより、部品回収容器262は、通常時において、部品受け姿勢に維持されている。また、部品回収容器262の後壁は、部品排出姿勢において後方ほど下方に向かう傾斜壁とされている。 The component collection container 262 has a box shape with an upper surface opened, and is held on the upper surface of the elevating member 268 so as to be rotatable about an axis parallel to the width direction of the component feeder 82. Accordingly, the bottom of the parts collection container 262 is horizontal, the parts receiving attitude (the attitude of the parts collection container 262 in FIG. 11) that can receive the parts from the opening, and the bottom of the parts collection container 262 are vertical, and the parts can be removed from the opening. It rotates between a component discharge posture (the posture of the component collection container 262 in FIG. 10) that can be discharged. The component collection container 262 is urged by a coil spring (not shown) in the direction of the component receiving posture. Thereby, the parts collection container 262 is maintained in the parts receiving posture in the normal time. In addition, the rear wall of the component collection container 262 is an inclined wall that is directed downward toward the rear in the component discharge posture.
 運動変換機構264は、図5に示すように、突出ピン272と係合ブロック274とを含む。突出ピン272は、部品受け姿勢の部品回収容器262の後方側の端部に配設されており、部品回収容器262の側方での外側に向かって突出している。一方、係合ブロック274は、サイドフレーム部190の前方側の上端部の内側に固定されている。そして、図10に示すように、部品回収容器262が、エアシリンダ266の作動により上昇端位置まで上昇する際に、突出ピン272が係合ブロック274に係合する。これにより、部品回収容器262は、回動し、部品排出姿勢となる。 The motion conversion mechanism 264 includes a protruding pin 272 and an engagement block 274, as shown in FIG. The protruding pin 272 is disposed at the rear end of the component collection container 262 in the component receiving posture, and protrudes outward on the side of the component collection container 262. On the other hand, the engagement block 274 is fixed to the inside of the upper end portion on the front side of the side frame portion 190. As shown in FIG. 10, when the component collection container 262 is raised to the rising end position by the operation of the air cylinder 266, the protruding pin 272 is engaged with the engagement block 274. As a result, the component collection container 262 rotates and assumes a component discharge posture.
 シャッタ265は、概して板状をなし、それの幅方向の寸法は、部品支持部材220の幅方向の寸法と同程度である。シャッタ265には、上下方向に延びるように長穴278が形成されており、その長穴278には、スライダ230の前方側の端部に固定された突部280がクリアランスのある状態で挿入されている。これにより、シャッタ265は、部品支持部材220と部品戻し装置86との間で、長穴278に沿った方向、つまり、上下方向にスライドする。なお、シャッタ265は、コイルスプリング282によって、上方に向かって付勢されている。 The shutter 265 is generally plate-shaped, and the dimension in the width direction thereof is approximately the same as the dimension in the width direction of the component support member 220. A long hole 278 is formed in the shutter 265 so as to extend in the vertical direction, and a protrusion 280 fixed to the front end of the slider 230 is inserted into the long hole 278 with a clearance. ing. Thereby, the shutter 265 slides between the component support member 220 and the component return device 86 in the direction along the elongated hole 278, that is, in the vertical direction. Note that the shutter 265 is biased upward by a coil spring 282.
 また、図11に示すように、昇降部材268の後方側の端部には、後方に向かって突出する突出部284が形成されている。一方、シャッタ265の下端部には、前方に向かって屈曲された屈曲部286が形成されている。そして、部品回収容器262が下降端位置に下降している状態において、昇降部材268の突出部284が、シャッタ265の屈曲部286に上方から係合している。これにより、シャッタ265は、コイルスプリング282による上方への移動が阻止されている。なお、この際のシャッタ265の上端は、部品支持部材220の部品支持板226より下方に位置している。また、図12に示すように、エアシリンダ266の作動により部品回収容器262が上昇する際には、昇降部材268も上昇する。この際、シャッタ265は、コイルスプリング282の弾性力により、昇降部材268と共に上昇する。さらに、エアシリンダ266の作動により部品回収容器262が上昇し、昇降部材268も上昇すると、シャッタ265も上昇するが、図13に示すように、長穴278の下端部に突部280が当接することで、シャッタ265の上昇は規制される。なお、上昇が規制された状態のシャッタ265の上端は、部品供給器82の傾斜板152より上方に位置している。 Further, as shown in FIG. 11, a projecting portion 284 that projects rearward is formed at the rear end portion of the elevating member 268. On the other hand, a bent portion 286 bent toward the front is formed at the lower end portion of the shutter 265. In a state where the component collection container 262 is lowered to the lower end position, the protruding portion 284 of the elevating member 268 is engaged with the bent portion 286 of the shutter 265 from above. Thereby, the shutter 265 is prevented from moving upward by the coil spring 282. At this time, the upper end of the shutter 265 is positioned below the component support plate 226 of the component support member 220. As shown in FIG. 12, when the component collection container 262 is raised by the operation of the air cylinder 266, the elevating member 268 is also raised. At this time, the shutter 265 is lifted together with the lifting member 268 by the elastic force of the coil spring 282. Further, when the component collection container 262 is raised by the operation of the air cylinder 266 and the elevating member 268 is also raised, the shutter 265 is also raised, but as shown in FIG. 13, the protrusion 280 comes into contact with the lower end of the long hole 278. As a result, the rise of the shutter 265 is restricted. Note that the upper end of the shutter 265 in a state where the ascent is restricted is located above the inclined plate 152 of the component supplier 82.
 (d)撮像装置
 撮像装置88は、図3に示すように、カメラ290とカメラ移動装置292とを含む。カメラ移動装置292は、ガイドレール296とスライダ298と電磁モータ(図21参照)299とを含む。ガイドレール296は、部品散在状態実現装置84の上方において、ばら部品供給装置32の幅方向に延びるように、本体80に固定されている。スライダ298は、ガイドレール296に沿ってスライド可能に、ガイドレール296に取り付けられており、電磁モータ299の作動により、任意の位置にスライドする。また、カメラ290は、下方を向いた状態でスライダ298に装着されている。なお、スライダ298に装着されたカメラ290の下方には、部品供給位置にある部品支持部材220が位置している。これにより、カメラ290が、5組の部品供給ユニット98のうちの任意の部品供給ユニット98の部品支持部材220の上方に移動し、部品支持部材220の部品支持板226上の複数の部品を撮像する。
(D) Imaging Device As shown in FIG. 3, the imaging device 88 includes a camera 290 and a camera moving device 292. The camera moving device 292 includes a guide rail 296, a slider 298, and an electromagnetic motor (see FIG. 21) 299. The guide rail 296 is fixed to the main body 80 so as to extend in the width direction of the bulk component supply device 32 above the component scattered state realization device 84. The slider 298 is attached to the guide rail 296 so as to be slidable along the guide rail 296, and slides to an arbitrary position by the operation of the electromagnetic motor 299. The camera 290 is attached to the slider 298 so as to face downward. A component support member 220 at the component supply position is located below the camera 290 mounted on the slider 298. As a result, the camera 290 moves above the component support member 220 of any component supply unit 98 of the five sets of component supply units 98 and images a plurality of components on the component support plate 226 of the component support member 220. To do.
 (e)部品引渡し装置
 部品引渡し装置90は、図3および図14に示すように、部品保持ヘッド移動装置300と部品保持ヘッド302と2台のシャトル装置304とを含む。
(E) Component Delivery Device As shown in FIGS. 3 and 14, the component delivery device 90 includes a component holding head moving device 300, a component holding head 302, and two shuttle devices 304.
 (i)部品保持ヘッド移動装置
 部品保持ヘッド移動装置300は、X方向移動装置310とY方向移動装置312とZ方向移動装置314とを含む。Y方向移動装置312は、Yスライダ316と1対のガイドレール318と電磁モータ(図21参照)319とを含む。1対のガイドレール318は、5組の部品供給ユニット98を挟むようにして、Y方向に延びるように、本体80に設けられている。また、Yスライダ316は、両端部において、1対のガイドレール318によりY方向にスライド可能に支持されており、電磁モータ319の駆動によりY方向の任意の位置に移動する。X方向移動装置310は、Xスライダ320と電磁モータ(図21参照)321とを含む。Xスライダ320は、Yスライダ316の側面において、X方向にスライド可能に保持されており、電磁モータ321の駆動によりX方向の任意の位置に移動する。Z方向移動装置314は、Zスライダ322と電磁モータ(図21参照)323とを含む。Zスライダ322は、Xスライダ320の側面において、Z方向にスライド可能に保持されており、電磁モータ323の駆動によりZ方向の任意の位置に移動する。
(I) Component Holding Head Moving Device The component holding head moving device 300 includes an X direction moving device 310, a Y direction moving device 312 and a Z direction moving device 314. The Y-direction moving device 312 includes a Y slider 316, a pair of guide rails 318, and an electromagnetic motor (see FIG. 21) 319. The pair of guide rails 318 are provided on the main body 80 so as to extend in the Y direction with the five sets of component supply units 98 interposed therebetween. The Y slider 316 is supported at both ends by a pair of guide rails 318 so as to be slidable in the Y direction, and is moved to an arbitrary position in the Y direction by driving of the electromagnetic motor 319. The X-direction moving device 310 includes an X slider 320 and an electromagnetic motor (see FIG. 21) 321. The X slider 320 is slidably held in the X direction on the side surface of the Y slider 316, and moves to an arbitrary position in the X direction by driving the electromagnetic motor 321. The Z direction moving device 314 includes a Z slider 322 and an electromagnetic motor (see FIG. 21) 323. The Z slider 322 is held on the side surface of the X slider 320 so as to be slidable in the Z direction, and is moved to an arbitrary position in the Z direction by driving of the electromagnetic motor 323.
 そして、Zスライダ322に部品保持ヘッド302が装着されている。これにより、部品保持ヘッド302は、部品保持ヘッド移動装置300の作動により、5組の部品供給ユニット98の部品支持部材220の上方において、水平方向の任意の位置に移動するとともに、上下方向に移動可能である。このため、部品保持ヘッド302は、5組の部品供給ユニット98のうちの任意の部品供給ユニット98の部品支持部材220から部品を保持可能な保持位置と、保持位置から退避した退避位置との間で移動する。なお、部品保持ヘッド移動装置300による部品保持ヘッド302の上下方向の移動範囲は、部品支持部材220の部品支持板226の上面と、撮像装置88との間である。つまり、部品保持ヘッド移動装置300による部品保持ヘッド302の移動範囲と、カメラ移動装置292によるカメラ290の移動範囲とは、異なっている。このため、撮像装置88のカメラ290と部品保持ヘッド302とを、5組の部品供給ユニット98のうちの同じ部品供給ユニット98の部品支持部材220の上方において、同時に移動させることが可能である。 The component holding head 302 is mounted on the Z slider 322. Thereby, the component holding head 302 is moved to an arbitrary position in the horizontal direction and moved in the vertical direction above the component support members 220 of the five sets of component supply units 98 by the operation of the component holding head moving device 300. Is possible. For this reason, the component holding head 302 is located between a holding position at which a component can be held from the component support member 220 of an arbitrary component supply unit 98 of the five sets of component supply units 98 and a retracted position retracted from the holding position. Move with. The vertical movement range of the component holding head 302 by the component holding head moving device 300 is between the upper surface of the component support plate 226 of the component support member 220 and the imaging device 88. That is, the moving range of the component holding head 302 by the component holding head moving device 300 is different from the moving range of the camera 290 by the camera moving device 292. Therefore, the camera 290 and the component holding head 302 of the imaging device 88 can be simultaneously moved above the component support member 220 of the same component supply unit 98 among the five sets of component supply units 98.
 (ii)部品保持ヘッド
 部品保持ヘッド302は、図15に示すように、ヘッド本体330と部品保持具332と保持具旋回装置334と保持具回転装置335と保持具取付装置(図18参照)336とを含む。ヘッド本体330は、Zスライダ322と一体的に形成されている。部品保持具332は、図16に示すように、本体部337と1対の爪部338と爪部スライド装置339とを含む。1対の爪部338は、本体部337の下面から下方に延び出すように配設されており、互いに接近・離間可能にスライドする。また、爪部スライド装置339は、1対の爪部338を接近・離間する方向にスライドさせる。このような構造により、部品保持具332は、1対の爪部338を接近させることで、1対の爪部338によって部品を保持する。また、部品保持具332は、1対の爪部338を離間させることで、1対の爪部338の間から部品を離脱する。
(Ii) Component Holding Head The component holding head 302 includes, as shown in FIG. Including. The head body 330 is formed integrally with the Z slider 322. As shown in FIG. 16, the component holder 332 includes a main body portion 337, a pair of claw portions 338, and a claw portion sliding device 339. The pair of claw portions 338 are disposed so as to extend downward from the lower surface of the main body portion 337, and slide so as to be able to approach and separate from each other. Further, the claw part sliding device 339 slides the pair of claw parts 338 in a direction to approach and separate. With such a structure, the component holder 332 holds the component by the pair of claw portions 338 by bringing the pair of claw portions 338 closer to each other. Further, the component holder 332 separates the component from between the pair of claws 338 by separating the pair of claws 338.
 また、保持具旋回装置334は、部品保持具332を旋回させる装置である。詳しくは、図15に示すように、電磁モータ340が、それの出力軸341が上下方向に延びるように、ヘッド本体330に固定されている。また、ねじロッド342が、軸線周りに回転可能に上下方向に延びるように配設されている。そして、そのねじロッド342に、電磁モータ340の回転力が、タイミングプーリ344,346とタイミングベルト348を介して伝達される。ねじロッド342には、ナット350が噛合されており、そのナット350にスライダ352が固定されている。これにより、スライダ352は、ねじロッド342の回転、つまり、電磁モータ340の駆動により上下方向にスライドする。 Also, the holder turning device 334 is a device for turning the component holder 332. Specifically, as shown in FIG. 15, the electromagnetic motor 340 is fixed to the head body 330 such that the output shaft 341 thereof extends in the vertical direction. Further, the screw rod 342 is disposed so as to extend in the vertical direction so as to be rotatable around the axis. Then, the rotational force of the electromagnetic motor 340 is transmitted to the screw rod 342 via the timing pulleys 344 and 346 and the timing belt 348. A nut 350 is engaged with the screw rod 342, and a slider 352 is fixed to the nut 350. As a result, the slider 352 slides up and down by the rotation of the screw rod 342, that is, by driving the electromagnetic motor 340.
 そのスライダ352には、スプライン軸354が下方に延び出すように固定されており、スプライン軸354の下端部には、レバー356が、一端部において、軸357によって水平軸線周りに回動可能に取り付けられている。そのレバー356の他端部には、保持部材358が固定され、保持部材358によって部品保持具332が保持されている。そのレバー356の側面には、レバー356の回動軸線と直角に交差する方向に突出するアーム360が固定されている。アーム360の先端部側には、ローラ362が取り付けられており、そのローラ362は、レバー356の回動軸線と平行な軸線周りに回転可能とされている。また、ヘッド本体330には、カム部材364が固定されており、そのカム部材364には、水平方向に延びる長穴366が形成されている。そして、カムフォロワとして機能するローラ362が、長穴366に嵌合されており、長穴366に沿って移動する。 A spline shaft 354 is fixed to the slider 352 so as to extend downward, and a lever 356 is attached to a lower end portion of the spline shaft 354 so as to be rotatable around a horizontal axis line by a shaft 357 at one end portion. It has been. A holding member 358 is fixed to the other end portion of the lever 356, and the component holder 332 is held by the holding member 358. An arm 360 is fixed to the side surface of the lever 356 so as to protrude in a direction perpendicular to the rotation axis of the lever 356. A roller 362 is attached to the distal end side of the arm 360, and the roller 362 is rotatable around an axis parallel to the rotation axis of the lever 356. A cam member 364 is fixed to the head main body 330, and a long hole 366 extending in the horizontal direction is formed in the cam member 364. A roller 362 that functions as a cam follower is fitted in the elongated hole 366 and moves along the elongated hole 366.
 このような構造により、スライダ352が上昇端位置にスライドしている際には、図15に示すように、スプライン軸354とレバー356とが同軸上に位置しており、部品保持具332は、旋回することなく、非旋回位置に位置している。そして、スライダ352が、電磁モータ340の駆動により、下降すると、ローラ362が長穴366内を、スプライン軸354から離れる方向に移動する。これにより、レバー356が軸357を中心に回動し、部品保持具332が旋回する。この際、スライダ352が下降端位置にまでスライドすると、図17に示すように、部品保持具332がレバー356とともに、90度旋回し、旋回位置に位置する。このように、部品保持具332は、電磁モータ340の駆動により、非旋回位置と旋回位置との間で旋回する。 With such a structure, when the slider 352 is slid to the rising end position, as shown in FIG. 15, the spline shaft 354 and the lever 356 are coaxially positioned, and the component holder 332 It is located in a non-turning position without turning. When the slider 352 is lowered by driving the electromagnetic motor 340, the roller 362 moves in the long hole 366 in a direction away from the spline shaft 354. As a result, the lever 356 rotates about the shaft 357, and the component holder 332 rotates. At this time, when the slider 352 slides to the lower end position, as shown in FIG. 17, the component holder 332 turns 90 degrees together with the lever 356 and is located at the turning position. In this way, the component holder 332 is turned between the non-turning position and the turning position by driving the electromagnetic motor 340.
 保持具回転装置335は、部品保持具332をそれの軸心周りに回転させる装置である。詳しくは、電磁モータ370が、それの出力軸(図示省略)が上下方向に延びるように、ヘッド本体330に固定されており、電磁モータ370の出力軸には、歯車372が取り付けられている。また、スプライン軸354には、それの軸線方向に相対移動可能であるが、相対回転不能な歯車374が嵌合されている。そして、歯車372と歯車374とが噛合している。これにより、電磁モータ370の駆動により、スプライン軸354は軸心周りに回転する。なお、スプライン軸354と歯車374とは、スプライン軸354の軸線方向に相対移動可能であるため、部品保持具332の旋回時に、スプライン軸354が上下方向に移動しても、電磁モータ370の回転力は、スプライン軸354に伝達される。なお、レバー356の内部には、スプライン軸354の回転力を部品保持具332に伝達する伝達機構(図示省略)が内蔵されており、スプライン軸354の回転に伴って、部品保持具332が、それの軸心周りに回転する。 The holder rotating device 335 is a device that rotates the component holder 332 around its axis. Specifically, the electromagnetic motor 370 is fixed to the head body 330 such that its output shaft (not shown) extends in the vertical direction, and a gear 372 is attached to the output shaft of the electromagnetic motor 370. Further, the spline shaft 354 is fitted with a gear 374 that is relatively movable in the axial direction but is not relatively rotatable. The gear 372 and the gear 374 are engaged with each other. As a result, the spline shaft 354 rotates around the axis by driving the electromagnetic motor 370. The spline shaft 354 and the gear 374 can move relative to each other in the axial direction of the spline shaft 354. Therefore, even when the spline shaft 354 moves up and down when the component holder 332 turns, the rotation of the electromagnetic motor 370 can be performed. The force is transmitted to the spline shaft 354. Note that a transmission mechanism (not shown) for transmitting the rotational force of the spline shaft 354 to the component holder 332 is built in the lever 356. As the spline shaft 354 rotates, the component holder 332 Rotate around its axis.
 保持具取付装置336は、部品保持具332を保持部材358に着脱可能に取り付けるための装置である。保持具取付装置336は、図18に示すように、凹部376と負圧源378と電磁弁380と正圧源382と電磁弁384とを含む。凹部376は、保持部材358の部品保持具332との当接面に形成されており、負圧室として機能する。その凹部376には、負圧源378と正圧源382とが接続されており、凹部376と負圧源378との経路に電磁弁380が配設され、凹部376と正圧源382との経路に電磁弁384が配設されている。これにより、保持部材358の当接面に部品保持具332が当接し、凹部376が部品保持具332によって塞がれた状態で、電磁弁380の作動により、凹部376に負圧が供給されることで、保持部材358によって部品保持具332が保持される。そして、電磁弁384の作動により、凹部376に正圧が供給されることで、保持部材358によって保持された部品保持具332が離脱する。 The holder mounting device 336 is a device for detachably mounting the component holder 332 to the holding member 358. As shown in FIG. 18, the holder mounting device 336 includes a recess 376, a negative pressure source 378, an electromagnetic valve 380, a positive pressure source 382, and an electromagnetic valve 384. The recess 376 is formed on the contact surface of the holding member 358 with the component holder 332 and functions as a negative pressure chamber. A negative pressure source 378 and a positive pressure source 382 are connected to the concave portion 376, and an electromagnetic valve 380 is disposed in a path between the concave portion 376 and the negative pressure source 378, and the concave portion 376 and the positive pressure source 382 are connected. An electromagnetic valve 384 is disposed in the path. As a result, the component holder 332 comes into contact with the contact surface of the holding member 358, and negative pressure is supplied to the recess 376 by the operation of the electromagnetic valve 380 in a state where the recess 376 is closed by the component holder 332. Thus, the component holder 332 is held by the holding member 358. Then, by operating the electromagnetic valve 384, positive pressure is supplied to the concave portion 376, whereby the component holder 332 held by the holding member 358 is released.
 部品保持具332は、上述したように、1対の爪部338によって部品を把持するものであり、部品保持具332には、爪部338の大きさ、また、1対の爪部338の間の距離等の異なる複数種類のものがある。このため、ばら部品供給装置32には、図3に示すように、本体80に保持具収容装置386が設けられている。保持具収容装置386には、1対の爪部338の間の距離等の異なる複数種類の部品保持具332が収納されており、必要に応じて、部品保持ヘッド302が、部品保持ヘッド移動装置300によって保持具収容装置386に移動させられ、部品保持ヘッド302に装着されている部品保持具332と、保持具収容装置386に収納されている部品保持具332とが自動で交換される。 As described above, the component holder 332 grips a component by the pair of claw portions 338. The component holder 332 has a size of the claw portion 338 and a distance between the pair of claw portions 338. There are several types with different distances. For this reason, as shown in FIG. 3, the loose component supply device 32 is provided with a holder accommodating device 386 in the main body 80. A plurality of types of component holders 332 having different distances between the pair of claw portions 338 and the like are stored in the holder storage device 386, and the component holding head 302 is replaced with a component holding head moving device as necessary. The component holder 332 mounted on the component holding head 302 and the component holder 332 stored in the holder storage device 386 are automatically exchanged.
 (iii)シャトル装置
 2台のシャトル装置304の各々は、図3に示すように、部品キャリヤ388と部品キャリヤ移動装置390とを含み、部品供給ユニット98の前方側に横方向に並んで、本体80に固定されている。部品キャリヤ388には、5個の部品受け部材392が、横方向に一列に並んだ状態で装着されており、各部品受け部材392に、部品が載置される。
(Iii) Shuttle device Each of the two shuttle devices 304 includes a component carrier 388 and a component carrier moving device 390, as shown in FIG. It is fixed to 80. Five component receiving members 392 are mounted on the component carrier 388 in a row in the horizontal direction, and the components are placed on each component receiving member 392.
 詳しくは、部品受け部材392は、図19に示すように、部品キャリヤ388の凹部396に着脱可能に嵌合され、凸部398,400により前後方向および横方向にそれぞれ位置決めされている。また、ばら部品供給装置32で供給される部品は、図20に示すように、リードを有する電子回路部品(以下、「リード部品」と略す場合がある)410であり、リード部品410は、部品本体412と2本のリード414とから構成されている。部品本体412は、概してブロック状をなし、2本のリード414は、部品本体412の底面415から垂直に突出している。 Specifically, as shown in FIG. 19, the component receiving member 392 is detachably fitted in the concave portion 396 of the component carrier 388 and is positioned by the convex portions 398 and 400 in the front-rear direction and the lateral direction, respectively. Further, as shown in FIG. 20, the parts supplied by the bulk parts supply device 32 are electronic circuit parts 410 having leads (hereinafter may be abbreviated as “lead parts”) 410, and the lead parts 410 are parts. It is composed of a main body 412 and two leads 414. The component main body 412 has a generally block shape, and the two leads 414 protrude vertically from the bottom surface 415 of the component main body 412.
 部品受け部材392には、部品受容凹部416が形成されている。部品受容凹部416は、段付き形状の凹部であり、部品受け部材392の上面に開口する本体部受容凹部418と、その本体部受容凹部418の底面に開口するリード受容凹部420とから構成されている。なお、リード受容凹部420の開口は、本体部受容凹部418の開口より小さく、リード受容凹部420と本体部受容凹部418との間に、段差面422が形成されている。リード受容凹部420の開口の縁部には、面取りが施され、案内面426が形成されている。そして、その案内面426に沿って、リード部品410の部品本体412が、部品受容凹部416の本体部受容凹部418に挿入される。この際、リード部品410は、リード414が下方を向く姿勢とされており、リード414は、リード受容凹部420に挿入される。つまり、部品本体412の底面415に垂直に交わる側面428を、部品受け部材392の案内面426に沿わした状態で、リード部品410が本体部受容凹部418に挿入され、リード414が、リード受容凹部420に挿入される。なお、リード受容凹部420の深さ寸法は、リード414の長さ寸法より深くされている。このため、リード部品410は、部品本体412の底面415が段差面422によって下方から支持された状態で、部品受容凹部416の内部に載置される。ちなみに、部品受容凹部416の本体部受容凹部418とリード受容凹部420の各々は、部品受容凹部416に載置されるリード部品410の形状、寸法等に応じた形状とされており、複数種類の部品受け部材392が存在する。このため、部品受容凹部416に載置されるリード部品410に応じて、部品キャリヤ388に装着される部品受け部材392を交換することが可能である。 A component receiving recess 416 is formed in the component receiving member 392. The component receiving recess 416 is a stepped recess, and includes a main body receiving recess 418 that opens to the top surface of the component receiving member 392 and a lead receiving recess 420 that opens to the bottom surface of the main body receiving recess 418. Yes. Note that the opening of the lead receiving recess 420 is smaller than the opening of the main body receiving recess 418, and a step surface 422 is formed between the lead receiving recess 420 and the main body receiving recess 418. The edge of the opening of the lead receiving recess 420 is chamfered to form a guide surface 426. Then, along the guide surface 426, the component main body 412 of the lead component 410 is inserted into the main body receiving recess 418 of the component receiving recess 416. At this time, the lead component 410 is configured such that the lead 414 faces downward, and the lead 414 is inserted into the lead receiving recess 420. That is, the lead component 410 is inserted into the main body receiving recess 418 with the side surface 428 perpendicular to the bottom surface 415 of the component main body 412 extending along the guide surface 426 of the component receiving member 392, and the lead 414 is connected to the lead receiving recess. 420 is inserted. Note that the depth dimension of the lead receiving recess 420 is deeper than the length dimension of the lead 414. For this reason, the lead component 410 is placed inside the component receiving recess 416 with the bottom surface 415 of the component body 412 supported from below by the step surface 422. Incidentally, each of the body receiving recess 418 and the lead receiving recess 420 of the component receiving recess 416 has a shape corresponding to the shape, dimensions, etc. of the lead component 410 placed in the component receiving recess 416, and there are a plurality of types. A component receiving member 392 is present. Therefore, the component receiving member 392 mounted on the component carrier 388 can be replaced in accordance with the lead component 410 placed in the component receiving recess 416.
 部品キャリヤ移動装置390は、図3に示すように、移動装置本体430と本体スライド装置432とを含む。移動装置本体430は、板状の長手部材であり、前後方向に延びるように、部品供給ユニット98の前方側に配設されている。移動装置本体430の上面には、移動装置本体430の長手方向に延びるように、ガイドレール434が配設されており、そのガイドレール434に部品キャリヤ388が係合されている。これにより、部品キャリヤ388は、ガイドレール434の上面において、ガイドレール434に沿ってスライドする。 The part carrier moving device 390 includes a moving device main body 430 and a main body slide device 432 as shown in FIG. The moving device main body 430 is a plate-like longitudinal member, and is disposed on the front side of the component supply unit 98 so as to extend in the front-rear direction. A guide rail 434 is disposed on the upper surface of the moving device main body 430 so as to extend in the longitudinal direction of the moving device main body 430, and a component carrier 388 is engaged with the guide rail 434. As a result, the component carrier 388 slides along the guide rail 434 on the upper surface of the guide rail 434.
 本体スライド装置432は、無端ベルト436と電磁モータ(図21参照)438とを含む。移動装置本体430の長手方向の両端には、横方向に平行な軸線周りに回転可能な複数のプーリ(図示省略)が配設されており、無端ベルト436は、それら複数のプーリに巻き掛けられている。そして、電磁モータの駆動により、プーリが回転することで、無端ベルト436が周回する。また、無端ベルト436には、部品キャリヤ388が固定されている。これにより、部品キャリヤ388は、ガイドレール434の上面において、前後方向の任意の位置にスライドする。なお、部品キャリヤ388が、部品供給ユニット98に接近する方向にスライドした際には、部品保持ヘッド移動装置300による部品保持ヘッド302の移動範囲内に位置する部品受取位置までスライドする。一方、部品キャリヤ388が、部品供給ユニット98から離れる方向にスライドした際には、作業ヘッド移動装置64による作業ヘッド60,62の移動範囲内に位置する部品供給位置までスライドする。 The main body slide device 432 includes an endless belt 436 and an electromagnetic motor (see FIG. 21) 438. A plurality of pulleys (not shown) that can rotate around an axis parallel to the lateral direction are disposed at both ends in the longitudinal direction of the moving device main body 430, and the endless belt 436 is wound around the plurality of pulleys. ing. Then, the endless belt 436 circulates as the pulley rotates by driving the electromagnetic motor. A component carrier 388 is fixed to the endless belt 436. As a result, the component carrier 388 slides to an arbitrary position in the front-rear direction on the upper surface of the guide rail 434. When the component carrier 388 is slid in the direction approaching the component supply unit 98, the component carrier 388 is slid to the component receiving position located within the movement range of the component holding head 302 by the component holding head moving device 300. On the other hand, when the component carrier 388 slides away from the component supply unit 98, the component carrier 388 slides to the component supply position located within the movement range of the work heads 60 and 62 by the work head moving device 64.
 また、制御装置34は、図21に示すように、統括制御装置450と、複数の個別制御装置(図では1つのみ図示されている)452と、画像処理装置454とを含む。統括制御装置450は、コンピュータを主体として構成されたものであり、基材搬送保持装置22,部品装着装置24,撮像装置26,撮像装置28,部品供給装置30,ばら部品供給装置32に接続されている。これにより、統括制御装置450は、基材搬送保持装置22,部品装着装置24,撮像装置26,撮像装置28,部品供給装置30,ばら部品供給装置32を統括して制御する。複数の個別制御装置452は、コンピュータを主体として構成されたものであり、基材搬送保持装置22,部品装着装置24,撮像装置26,撮像装置28,部品供給装置30,ばら部品供給装置32に対応して設けられている(図では、ばら部品供給装置32に対応する個別制御装置452のみが図示されている)。ばら部品供給装置32の個別制御装置452は、部品散在状態実現装置84,部品戻し装置86,カメラ移動装置292,部品保持ヘッド移動装置300,部品保持ヘッド302,シャトル装置304に接続されている。これにより、ばら部品供給装置32の個別制御装置452は、部品散在状態実現装置84,部品戻し装置86,カメラ移動装置292,部品保持ヘッド移動装置300,部品保持ヘッド302,シャトル装置304を制御する。また、画像処理装置454は、撮像装置88に接続されており、撮像装置88により撮像された撮像データを処理する。さらに、画像処理装置454は、ばら部品供給装置32の個別制御装置452に接続されている。これにより、ばら部品供給装置32の個別制御装置452は、撮像装置88により撮像された撮像データを取得する。 Further, as shown in FIG. 21, the control device 34 includes an overall control device 450, a plurality of individual control devices (only one is shown in the figure) 452, and an image processing device 454. The overall control device 450 is configured mainly by a computer, and is connected to the base material conveyance holding device 22, the component mounting device 24, the imaging device 26, the imaging device 28, the component supply device 30, and the loose component supply device 32. ing. Thereby, the overall control device 450 controls the base material conveyance holding device 22, the component mounting device 24, the imaging device 26, the imaging device 28, the component supply device 30, and the loose component supply device 32 in an integrated manner. The plurality of individual control devices 452 are configured mainly by a computer, and are provided in the base material conveyance holding device 22, the component mounting device 24, the imaging device 26, the imaging device 28, the component supply device 30, and the bulk component supply device 32. (In the figure, only the individual control device 452 corresponding to the bulk component supply device 32 is shown). The individual control device 452 of the bulk component supply device 32 is connected to a component scattered state realization device 84, a component return device 86, a camera moving device 292, a component holding head moving device 300, a component holding head 302, and a shuttle device 304. Thereby, the individual control device 452 of the bulk component supply device 32 controls the component scattered state realization device 84, the component return device 86, the camera moving device 292, the component holding head moving device 300, the component holding head 302, and the shuttle device 304. . The image processing device 454 is connected to the imaging device 88 and processes imaging data captured by the imaging device 88. Further, the image processing device 454 is connected to the individual control device 452 of the bulk component supply device 32. As a result, the individual control device 452 of the bulk component supply device 32 acquires the imaging data captured by the imaging device 88.
 <部品実装装置の作動>
 部品実装装置10は、上述した構成によって、基材搬送保持装置22に保持された回路基材12に対して部品の装着作業が行われる。具体的には、回路基材12が、作業位置まで搬送され、その位置において、クランプ装置52によって固定的に保持される。次に、撮像装置26が、回路基材12の上方に移動し、回路基材12を撮像する。これにより、回路基材12の保持位置の誤差に関する情報が得られる。また、部品供給装置30若しくは、ばら部品供給装置32は、所定の供給位置において、部品を供給する。なお、ばら部品供給装置32による部品の供給に関しては、後で詳しく説明する。そして、作業ヘッド60,62の何れかが、部品の供給位置の上方に移動し、部品保持具66によって部品を保持する。続いて、部品を保持した作業ヘッド60,62が、撮像装置28の上方に移動し、撮像装置28によって、部品保持具66に保持された部品が撮像される。これにより、部品の保持位置の誤差に関する情報が得られる。そして、部品を保持した作業ヘッド60,62が、回路基材12の上方に移動し、保持している部品を、回路基材12の保持位置の誤差,部品の保持位置の誤差等を補正し、回路基材12上に装着する。
<Operation of component mounting device>
In the component mounting apparatus 10, the component mounting operation is performed on the circuit substrate 12 held by the substrate conveyance holding device 22 with the above-described configuration. Specifically, the circuit substrate 12 is transported to the work position, and is fixedly held by the clamp device 52 at that position. Next, the imaging device 26 moves above the circuit substrate 12 and images the circuit substrate 12. Thereby, the information regarding the error of the holding position of the circuit base material 12 is obtained. In addition, the component supply device 30 or the bulk component supply device 32 supplies components at a predetermined supply position. It should be noted that the supply of components by the bulk component supply device 32 will be described in detail later. Then, one of the work heads 60 and 62 moves above the component supply position, and the component holder 66 holds the component. Subsequently, the work heads 60 and 62 holding the components move above the imaging device 28, and the components held by the component holder 66 are imaged by the imaging device 28. As a result, information on the error of the component holding position can be obtained. Then, the work heads 60 and 62 holding the components move above the circuit substrate 12 and correct the held components for errors in the holding position of the circuit substrate 12, errors in the holding position of the components, and the like. And mounted on the circuit substrate 12.
 <ばら部品供給装置の作動>
 (a)ばら部品供給装置によるリード部品の供給
 ばら部品供給装置32では、リード部品410が、作業者によって部品供給器82の部品収納器100に投入され、その投入されたリード部品410が、部品供給ユニット98,部品引渡し装置90の作動により、部品キャリヤ388の部品受け部材392に載置された状態で供給される。詳しくは、作業者は、5組の部品供給ユニット98のうちの任意の部品供給ユニット98の部品供給器82の部品収納器100の上面の開口から、同じ種類の複数のリード部品410を投入する。この際、部品支持部材220は、図8に示すように、部品支持部材移動装置222の作動により、部品供給器82の下方の退避位置に移動しており、部品供給器82の前方には、部品回収容器262が位置している。
<Operation of bulk parts supply device>
(A) Lead component supply by bulk component supply device In the bulk component supply device 32, the lead component 410 is put into the component container 100 of the component feeder 82 by the operator, and the lead component 410 that is put in is supplied as a component. By the operation of the supply unit 98 and the component delivery device 90, the component is supplied in a state of being placed on the component receiving member 392 of the component carrier 388. Specifically, the operator inputs a plurality of lead components 410 of the same type from the opening on the upper surface of the component container 100 of the component feeder 82 of an arbitrary component supply unit 98 among the five sets of component supply units 98. . At this time, as shown in FIG. 8, the component support member 220 is moved to a retracted position below the component feeder 82 by the operation of the component support member moving device 222, and in front of the component feeder 82, A parts collection container 262 is located.
 部品収納器100の上面の開口から投入されたリード部品410は、図6に示すように、部品収納器100の投入部110から、開口114を介して、収納部112に落下する。この際、落下したリード部品410は、傾斜面116を転がり、傾斜面116上に広がる。そして、開口114にリード部品410が詰まって、開口114が塞がれた状態となれば、部品収納器100の上面の開口から投入された複数のリード部品410が、投入部110において、ばら積みの状態となる。なお、傾斜面116に落下したリード部品410が、傾斜板152を超えて転がり落ちた場合であっても、部品供給器82の前方に位置する部品回収容器262に収容される。 The lead component 410 thrown from the opening on the upper surface of the component container 100 falls from the loading part 110 of the component container 100 to the storage part 112 through the opening 114 as shown in FIG. At this time, the dropped lead component 410 rolls on the inclined surface 116 and spreads on the inclined surface 116. When the lead component 410 is clogged in the opening 114 and the opening 114 is closed, a plurality of lead components 410 loaded from the opening on the upper surface of the component container 100 are stacked in the loading unit 110. It becomes a state. Even if the lead component 410 that has fallen on the inclined surface 116 rolls over the inclined plate 152, the lead component 410 is accommodated in the component recovery container 262 located in front of the component supplier 82.
 部品収納器100へのリード部品410の投入後に、部品支持部材220が、部品支持部材移動装置222の作動により、部品供給器82の下方から前方に向かって移動させられる。この際、カム部材240がカムフォロワ242に至れば、図22に示すように、カムフォロワ242のローラ254が、カム部材240の歯245の傾斜面246に沿って上昇する。そして、ローラ254は、歯245の傾斜面246において歯245を乗り越える。カムフォロワ242のレバー252は、コイルばねの弾性力によって前方に向かう方向に付勢されており、レバー252の前方への付勢は、ストッパ244によって規制されている。このため、部品支持部材220が前方に向かって移動する際には、ローラ254と歯245とが噛み合った状態に維持され、レバー252は前方に向かって回動せず、ローラ254は、歯245を乗り越える。この際、部品供給器82は、ローラ254の歯245の乗り越えにより、昇降する。つまり、ローラ254が歯245に噛み合った状態で、部品支持部材220が前方に向かって移動することで、ローラ254が複数の歯245を乗り越え、部品供給器82が上下方向に連続して振動する。 After the lead component 410 is inserted into the component container 100, the component support member 220 is moved from the lower part of the component feeder 82 to the front by the operation of the component support member moving device 222. At this time, when the cam member 240 reaches the cam follower 242, the roller 254 of the cam follower 242 moves up along the inclined surface 246 of the teeth 245 of the cam member 240 as shown in FIG. Then, the roller 254 gets over the tooth 245 on the inclined surface 246 of the tooth 245. The lever 252 of the cam follower 242 is biased in the forward direction by the elastic force of the coil spring, and the forward bias of the lever 252 is restricted by the stopper 244. For this reason, when the component support member 220 moves forward, the roller 254 and the teeth 245 are maintained in mesh with each other, the lever 252 does not rotate forward, and the roller 254 has the teeth 245. Get over. At this time, the component supply device 82 moves up and down by getting over the teeth 245 of the roller 254. That is, when the component support member 220 moves forward while the roller 254 is engaged with the teeth 245, the roller 254 gets over the plurality of teeth 245, and the component supplier 82 continuously vibrates in the vertical direction. .
 部品収納器100の傾斜面116上に広がっているリード部品410は、部品供給器82の振動と傾斜面116の傾斜により、前方に移動し、傾斜板152を介して、部品支持部材220の部品支持板226の上面に排出される。この際、部品支持部材220の側壁部228によって、部品支持板226の上面からのリード部品410の落下が防止される。また、部品供給器82の振動によって、開口114に詰まっていたリード部品410が、開口114を介して、傾斜面116上に落下し、傾斜板152を介して、部品支持板226の上面に排出される。部品支持部材220の前方への移動に伴って、部品供給器82の下方から露出する部品支持板226の面積が増加し、その増加した面積に相当する部品支持板226に、順次、リード部品410が排出される。なお、ローラ254が歯245を乗り越えるタイミングにおいて、部品供給器82が振動し、部品供給器82から部品支持板226の上面にリード部品410が排出される。また、カム部材240は、部品支持部材220が部品供給位置に到達する前に、カムフォロワ242から外れる。このため、カム部材240がカムフォロワ242から外れ、部品支持部材220が部品供給位置に移動する際には、部品供給器82は振動せず、部品供給器82から部品支持板226の上面にリード部品410は排出されない。これにより、部品供給ユニット98では、部品支持部材220が部品供給位置に到達した状態において、図23に示すように、部品支持部材220の部品支持板226の上面に、複数のリード部品410が散在される。 The lead component 410 spreading on the inclined surface 116 of the component container 100 moves forward due to the vibration of the component supplier 82 and the inclination of the inclined surface 116, and the component of the component support member 220 via the inclined plate 152. It is discharged onto the upper surface of the support plate 226. At this time, the side wall portion 228 of the component support member 220 prevents the lead component 410 from falling from the upper surface of the component support plate 226. Further, the lead component 410 clogged in the opening 114 by the vibration of the component supplier 82 falls onto the inclined surface 116 through the opening 114 and is discharged onto the upper surface of the component support plate 226 through the inclined plate 152. Is done. As the component support member 220 moves forward, the area of the component support plate 226 exposed from below the component feeder 82 increases, and the lead component 410 is sequentially transferred to the component support plate 226 corresponding to the increased area. Is discharged. At the timing when the roller 254 gets over the teeth 245, the component supplier 82 vibrates, and the lead component 410 is discharged from the component supplier 82 onto the upper surface of the component support plate 226. Further, the cam member 240 is detached from the cam follower 242 before the component support member 220 reaches the component supply position. Therefore, when the cam member 240 is detached from the cam follower 242 and the component support member 220 moves to the component supply position, the component supplier 82 does not vibrate, and the lead component is placed on the upper surface of the component support plate 226 from the component supplier 82. 410 is not discharged. Thereby, in the component supply unit 98, when the component support member 220 has reached the component supply position, a plurality of lead components 410 are scattered on the upper surface of the component support plate 226 of the component support member 220 as shown in FIG. Is done.
 部品支持部材220が部品供給位置に到達すると、撮像装置88のカメラ290が、カメラ移動装置292の作動により、リード部品410が散在する部品支持板226の上方に移動させられ、リード部品410を撮像する。そして、部品支持板226の上面に散在する複数のリード部品410が、撮像データに基づいて、部品保持具332によってピックアップ可能なリード部品(以下、「ピックアップ対象部品410t」と記載する場合がある)と、部品保持具332によってピックアップ不可能なリード部品(以下、「非ピックアップ対象部品410s」と記載する場合がある)とに分けられる。 When the component support member 220 reaches the component supply position, the camera 290 of the imaging device 88 is moved above the component support plate 226 in which the lead components 410 are scattered by the operation of the camera moving device 292, and the lead component 410 is imaged. To do. A plurality of lead components 410 scattered on the upper surface of the component support plate 226 can be picked up by the component holder 332 based on the imaging data (hereinafter may be referred to as “pickup target component 410t”). And a lead component that cannot be picked up by the component holder 332 (hereinafter sometimes referred to as “non-pickup target component 410s”).
 具体的には、リード部品410は、上述したように、ブロック状の部品本体412と、部品本体412の底面415から突出する2本のリード414とから構成されている。一方、部品保持具332は、1対の爪部338によって部品を挟持することで、部品を保持する。このため、リード部品410が部品保持具332によって保持される際には、1対の爪部338が、部品本体412のリード414が配設されている底面415以外の面を挟持する必要がある。つまり、1対の爪部338は、部品本体412の1対の側面428を挟持する必要がある。このため、撮像データに基づいて、リード部品410の部品本体412の1対の側面428の位置が検出され、1対の爪部338によって、部品本体412の1対の側面428が挟持される。 Specifically, as described above, the lead component 410 includes a block-shaped component main body 412 and two leads 414 protruding from the bottom surface 415 of the component main body 412. On the other hand, the component holder 332 holds the component by holding the component between the pair of claw portions 338. For this reason, when the lead component 410 is held by the component holder 332, the pair of claw portions 338 must sandwich a surface other than the bottom surface 415 on which the lead 414 of the component body 412 is disposed. . That is, the pair of claws 338 needs to sandwich the pair of side surfaces 428 of the component main body 412. Therefore, the position of the pair of side surfaces 428 of the component main body 412 of the lead component 410 is detected based on the imaging data, and the pair of side surfaces 428 of the component main body 412 is sandwiched by the pair of claw portions 338.
 ただし、リード部品410が散在される部品支持板226には、部品支持板226からのリード部品410の脱落を防止するための側壁部228が設けられている。このため、側壁部228に近い位置のリード部品410を部品保持具332によって保持する際に、部品保持具332と側壁部228とが干渉する虞がある。そこで、側壁部228から離れた位置のリード部品410が、ピックアップ対象部品410tに区分けされる。しかしながら、側壁部228に近い位置のリード部品410であっても、側壁部228と干渉することなく、部品保持具332によって保持可能な部品も存在する。 However, the component support plate 226 in which the lead components 410 are scattered is provided with a side wall portion 228 for preventing the lead components 410 from dropping off from the component support plate 226. For this reason, when the lead component 410 at a position close to the side wall portion 228 is held by the component holder 332, the component holder 332 and the side wall portion 228 may interfere with each other. Therefore, the lead component 410 at a position away from the side wall portion 228 is divided into pickup target components 410t. However, there are components that can be held by the component holder 332 without interfering with the side wall portion 228 even if the lead component 410 is located near the side wall portion 228.
 詳しくは、例えば、図23に示すように、側壁部228に近い位置のリード部品410のうちの、側面428が側壁部228に接触、若しくは、接近しているリード部品410では、側面428と側壁部228とのクリアランスは、0、若しくは、殆ど存在しない。つまり、側面428と側壁部228との間に、部品保持具332の爪部338を挿入することができない。このため、側面428が側壁部228に接触、若しくは、接近しているリード部品410は、部品保持具332によって保持することができない。 Specifically, for example, as shown in FIG. 23, in the lead component 410 in which the side surface 428 is in contact with or close to the side wall portion 228 among the lead components 410 located near the side wall portion 228, the side surface 428 and the side wall The clearance with the portion 228 is 0 or almost does not exist. That is, the claw portion 338 of the component holder 332 cannot be inserted between the side surface 428 and the side wall portion 228. For this reason, the lead component 410 whose side surface 428 is in contact with or close to the side wall portion 228 cannot be held by the component holder 332.
 一方、側壁部228に近い位置のリード部品410のうちの、リード部品410の底面415と向かい合う面460が、側壁部228に接触、若しくは、接近しているリード部品410では、側面428と側壁部228との間には、所定のクリアランスが存在する。このため、側面428と側壁部228との間に、部品保持具332の爪部338を挿入し、リード部品410を部品保持具332によって保持することが可能である。さらに言えば、部品保持具332の爪部338によってリード部品410の側面428が挟持されるが、側面428全体が爪部338によって挟持されるわけではなく、側面428の中央部が、爪部338によって挟持される。つまり、側面428の中央部と側壁部228との間に所定のクリアランスが存在すれば、リード部品410を部品保持具332によって保持することが可能である。 On the other hand, in the lead component 410 located near the side wall portion 228, the surface 460 facing the bottom surface 415 of the lead component 410 is in contact with or close to the side wall portion 228. There is a predetermined clearance between 228. Therefore, the claw portion 338 of the component holder 332 can be inserted between the side surface 428 and the side wall portion 228, and the lead component 410 can be held by the component holder 332. More specifically, the side surface 428 of the lead component 410 is clamped by the claw portion 338 of the component holder 332, but the entire side surface 428 is not clamped by the claw portion 338, and the central portion of the side surface 428 is clamped by the claw portion 338. It is pinched by. That is, the lead component 410 can be held by the component holder 332 if a predetermined clearance exists between the center portion of the side surface 428 and the side wall portion 228.
 このようなことに鑑みて、部品支持板226に散在されたリード部品410が、ピックアップ対象部品410tと非ピックアップ対象部品410sとに区分けされる際に、撮像装置88の撮像データに基づいて、リード部品410の1対の側面428の位置が検出され、各側面428の中央部と側壁部228との離間距離が演算される。そして、離間距離が設定距離以上であるか否かが判定され、離間距離が設定距離以上と判定されたリード部品410が、ピックアップ対象部品410tに区分けされ、離間距離が設定距離未満と判定されたリード部品410が、非ピックアップ対象部品410sに区分けされる。なお、設定距離は、爪部338を挿入可能な距離であればよく、例えば、爪部338の厚さに相当する距離より僅かに長い距離に設定することが可能である。 In view of the above, when the lead components 410 scattered on the component support plate 226 are classified into the pickup target component 410t and the non-pickup target component 410s, the leads are read based on the imaging data of the imaging device 88. The position of the pair of side surfaces 428 of the component 410 is detected, and the separation distance between the center portion of each side surface 428 and the side wall portion 228 is calculated. Then, it is determined whether or not the separation distance is greater than or equal to the set distance, and the lead component 410 that is determined to be greater than or equal to the set distance is classified as a pickup target component 410t, and the separation distance is determined to be less than the set distance. The lead component 410 is divided into non-pickup target components 410s. The set distance may be any distance as long as the claw portion 338 can be inserted. For example, the set distance can be set slightly longer than the distance corresponding to the thickness of the claw portion 338.
 また、壁面から離れた位置のリード部品410であっても、2個以上のリード部品410が接近している際には、非ピックアップ対象部品410sに区分けされる場合もある。具体的には、図23に示すように、部品支持板226の中央部に、2個のリード部品410が位置し、2個のリード部品410の一方のリード部品410の側面428と、他方のリード部品410の底面415と向かい合う面460とが、接触、若しくは、接近している場合がある。このような場合には、2個のリード部品410の一方のリード部品410の側面428に他方のリード部品410が接触、若しくは、接近しているため、その一方のリード部品410を把持することができない。しかし、2個のリード部品410の他方のリード部品410の側面428には、一方のリード部品410が接触、若しくは、接近していないため、その他方のリード部品410を把持することが可能である。 Further, even if the lead component 410 is located away from the wall surface, it may be classified as a non-pickup target component 410s when two or more lead components 410 are approaching. Specifically, as shown in FIG. 23, the two lead components 410 are located at the center of the component support plate 226, the side surface 428 of one lead component 410 of the two lead components 410, and the other The surface 460 facing the bottom surface 415 of the lead component 410 may be in contact with or in close proximity. In such a case, since the other lead component 410 is in contact with or close to the side surface 428 of one lead component 410 of the two lead components 410, the one lead component 410 can be gripped. Can not. However, since one lead component 410 is not in contact with or close to the side surface 428 of the other lead component 410 of the two lead components 410, the other lead component 410 can be gripped. .
 このため、撮像装置88の撮像データに基づいて、ピックアップの判定が行われる部品の各側面428の中央部と、その部品以外の部品との離間距離が演算される。そして、離間距離が設定距離以上であるか否かが判定され、離間距離が設定距離以上と判定されたリード部品410が、ピックアップ対象部品410tに区分けされ、離間距離が設定距離未満と判定されたリード部品410が、非ピックアップ対象部品410sに区分けされる。 For this reason, based on the imaging data of the imaging device 88, the separation distance between the center of each side surface 428 of the part to be picked up and the part other than the part is calculated. Then, it is determined whether or not the separation distance is greater than or equal to the set distance, and the lead component 410 that is determined to be greater than or equal to the set distance is classified as a pickup target component 410t, and the separation distance is determined to be less than the set distance. The lead component 410 is divided into non-pickup target components 410s.
 このように、リード部品410の側面428の中央部と側壁部228との離間距離に基づいて、部品支持板226に散在されたリード部品410を、ピックアップ対象部品410tと非ピックアップ対象部品410sとに区分けすることで、部品支持板226から多くのリード部品410をピックアップすることが可能となる。 Thus, based on the separation distance between the center portion of the side surface 428 of the lead component 410 and the side wall portion 228, the lead component 410 scattered on the component support plate 226 is changed into the pickup target component 410t and the non-pickup target component 410s. By sorting, it is possible to pick up many lead components 410 from the component support plate 226.
 また、部品支持板226に散在されたリード部品410が、ピックアップ対象部品410tと非ピックアップ対象部品410sとに区分けされると、ピックアップ対象部品410tに対して、撮像データに基づいて、部品支持板226上での位置、リード部品410の姿勢等の情報が取得される。そして、位置情報,姿勢情報等に基づいて、ピックアップ対象部品410tが部品保持具332によって把持される。 Further, when the lead components 410 scattered on the component support plate 226 are classified into the pickup target component 410t and the non-pickup target component 410s, the component support plate 226 is compared with the pickup target component 410t based on the imaging data. Information such as the position above and the posture of the lead component 410 is acquired. The pickup target component 410t is gripped by the component holder 332 based on position information, posture information, and the like.
 詳しくは、部品支持板226上のピックアップ対象部品410tのXY座標上の位置が、撮像データに基づいて、演算される。この際、予め設定された基準位置マーク(例えば、部品支持板226等に予め記されている)を基準として、ピックアップ対象部品410tのXY座標上の位置が演算される。そして、演算されたピックアップ対象部品410tの位置情報に基づいて、部品保持ヘッド移動装置300の作動が制御され、部品保持ヘッド302が、ピックアップ対象部品410tの上方に移動させられる。 Specifically, the position on the XY coordinate of the pickup target component 410t on the component support plate 226 is calculated based on the imaging data. At this time, the position on the XY coordinate of the pickup target component 410t is calculated with reference to a preset reference position mark (for example, written in advance on the component support plate 226). Based on the calculated position information of the pickup target component 410t, the operation of the component holding head moving device 300 is controlled, and the component holding head 302 is moved above the pickup target component 410t.
 また、部品支持板226上のピックアップ対象部品410tの姿勢が、XY座標上での基準線Aと、ピックアップ対象部品410tの基準線Bとのなす角度θとして演算される。具体的には、例えば、XY座標上での基準線Aを、X方向または、Y方向に平行な線と設定し、ピックアップ対象部品410tの基準線Bを、リード414と平行な線と設定した場合に、基準線Aと基準線Bとが反時計回りに交わる角度θが、撮像データに基づいて演算される。そして、演算された角度θに基づいて、保持具回転装置335の作動が制御され、部品保持具332の1対の爪部338と、ピックアップ対象部品410tの1対の側面428とが対抗するように、部品保持具332が回転させられる。これにより、部品保持具332の1対の爪部338によって、ピックアップ対象部品410tが、1対の側面428において把持される。 Also, the posture of the pickup target component 410t on the component support plate 226 is calculated as an angle θ between the reference line A on the XY coordinates and the reference line B of the pickup target component 410t. Specifically, for example, the reference line A on the XY coordinates is set as a line parallel to the X direction or the Y direction, and the reference line B of the pickup target component 410t is set as a line parallel to the lead 414. In this case, an angle θ at which the reference line A and the reference line B intersect counterclockwise is calculated based on the imaging data. Then, based on the calculated angle θ, the operation of the holder rotating device 335 is controlled so that the pair of claws 338 of the component holder 332 and the pair of side surfaces 428 of the pickup target component 410t are opposed to each other. Then, the component holder 332 is rotated. Accordingly, the pickup target component 410t is gripped on the pair of side surfaces 428 by the pair of claw portions 338 of the component holder 332.
 また、部品保持具332によってピックアップ対象部品410tが保持される際には、部品保持具332は、非旋回位置に位置している。そして、ピックアップ対象部品410tが部品保持具332によって保持された後に、部品保持ヘッド302が部品キャリヤ388の上方に移動させられるが、この際、部品キャリヤ388は、部品キャリヤ移動装置390の作動により、部品受取位置に移動している。そして、部品保持ヘッド302が部品キャリヤ388の上方に移動する際に、部品保持具332は、旋回位置に旋回される。ただし、部品保持具332の旋回方向は、1方向であるため、旋回位置の部品保持具332に保持されたリード部品410のリード414が、鉛直方向での下方を向かない場合がある。このため、旋回位置の部品保持具332に保持されたリード部品410のリード414が、鉛直方向での下方を向くように、部品保持具332による保持姿勢が、部品支持板226上でのピックアップ対象部品410tの姿勢情報に基づいて、演算される。そして、部品保持具332は、演算された保持姿勢でピックアップ対象部品410tを保持できるように、ピックアップ対象部品410tの保持前に、保持具回転装置335によって、回転させられる。つまり、ピックアップ対象部品410tが部品保持具332によって保持される際、つまり、1対の爪部338によって、ピックアップ対象部品410tの1対の側面428が把持される際には、基準線Aと基準線Bとのなす角度θと、部品保持具332による保持姿勢とに基づいて、部品保持具332は、保持具回転装置335によって回転させられる。これにより、旋回位置の部品保持具332に保持されたリード部品410では、リード414が鉛直方向での下方を向いた状態となる。 In addition, when the pickup target part 410t is held by the part holder 332, the part holder 332 is located at the non-turning position. Then, after the pickup target component 410t is held by the component holder 332, the component holding head 302 is moved above the component carrier 388. At this time, the component carrier 388 is operated by the operation of the component carrier moving device 390. Moved to the parts receiving position. Then, when the component holding head 302 moves above the component carrier 388, the component holder 332 is turned to the turning position. However, since the turning direction of the component holder 332 is one direction, the lead 414 of the lead component 410 held by the component holder 332 at the turning position may not face downward in the vertical direction. For this reason, the holding posture by the component holder 332 is set to be picked up on the component support plate 226 so that the lead 414 of the lead component 410 held by the component holder 332 in the turning position faces downward in the vertical direction. Calculation is performed based on the posture information of the component 410t. The component holder 332 is rotated by the holder rotation device 335 before holding the pickup target component 410t so that the pickup target component 410t can be held in the calculated holding posture. That is, when the pickup target component 410t is held by the component holder 332, that is, when the pair of side surfaces 428 of the pickup target component 410t is gripped by the pair of claw portions 338, the reference line A and the reference line A Based on the angle θ formed with the line B and the holding posture by the component holder 332, the component holder 332 is rotated by the holder rotation device 335. Thereby, in the lead component 410 held by the component holder 332 in the turning position, the lead 414 is directed downward in the vertical direction.
 そして、部品保持ヘッド302が部品キャリヤ388の上方に移動すると、リード414が鉛直方向での下方を向いた状態のリード部品410が、部品受け部材392内に、案内面426に沿って挿入される。これにより、リード部品410は、リード414を鉛直方向での下方に向けた状態で、部品受け部材392に載置される。次に、部品キャリヤ388は、部品キャリヤ移動装置390の作動により、部品供給位置に移動する。部品供給位置に移動した部品キャリヤ388は、作業ヘッド60,62の移動範囲に位置しているため、ばら部品供給装置32では、この位置においてリード部品410が供給される。これにより、部品供給位置での部品キャリヤ388の部品受け部材392に載置されたリード部品410が、作業ヘッド60,62の部品保持具66によって保持される。このように、ばら部品供給装置32では、リード414が下方を向き、リード414が接続された面と対向する面が上方を向いた状態で、リード部品410が供給される。このため、部品保持ヘッド302によって、適切にリード部品410を保持することが可能となる。 When the component holding head 302 moves above the component carrier 388, the lead component 410 with the lead 414 facing downward in the vertical direction is inserted into the component receiving member 392 along the guide surface 426. . As a result, the lead component 410 is placed on the component receiving member 392 with the lead 414 facing downward in the vertical direction. Next, the component carrier 388 moves to the component supply position by the operation of the component carrier moving device 390. Since the component carrier 388 moved to the component supply position is located in the movement range of the work heads 60 and 62, the lead component 410 is supplied at this position in the loose component supply device 32. As a result, the lead component 410 placed on the component receiving member 392 of the component carrier 388 at the component supply position is held by the component holder 66 of the work heads 60 and 62. Thus, in the loose component supply device 32, the lead component 410 is supplied in a state where the lead 414 faces downward and the surface facing the surface to which the lead 414 is connected faces upward. For this reason, the lead component 410 can be appropriately held by the component holding head 302.
 また、部品保持ヘッド移動装置300による部品保持ヘッド302の移動範囲と、カメラ移動装置292によるカメラ290の移動範囲とは、上述したように、異なっている。このため、部品保持ヘッド302によるピックアップ対象部品のピックアップ毎に、カメラ290を部品支持部材220上に位置させた状態で、ピックアップ対象部品の位置情報等を得ることが可能である。詳しくは、部品支持部材220上に位置するカメラ290により、部品支持部材220上のリード部品410が撮像される。そして、撮像データに基づいて、部品保持ヘッド302によるピックアップ作業が行われ、ピックアップされたピックアップ対象部品が、部品受け部材392に載置される。この際、部品保持ヘッド302は、シャトル装置304の部品キャリヤ388の上方に移動しており、部品支持部材220の上方に位置していない。このため、部品保持ヘッド302が部品キャリヤ388の上方に移動しているタイミングで、カメラ290によって部品支持部材220上のリード部品410が撮像される。そして、この撮像データに基づいて、部品保持ヘッド302によって、新たなピックアップ対象部品のピックアップ作業が行われる。これにより、最新の情報に基づいて、ピックアップ作業を行うことが可能となり、適切なピックアップ作業を担保することが可能となる。 Also, the moving range of the component holding head 302 by the component holding head moving device 300 and the moving range of the camera 290 by the camera moving device 292 are different as described above. For this reason, it is possible to obtain the position information of the pickup target component and the like with the camera 290 positioned on the component support member 220 for each pickup of the pickup target component by the component holding head 302. Specifically, the lead component 410 on the component support member 220 is imaged by the camera 290 located on the component support member 220. Then, based on the imaging data, a pickup operation by the component holding head 302 is performed, and the picked up pickup target component is placed on the component receiving member 392. At this time, the component holding head 302 has moved above the component carrier 388 of the shuttle device 304 and is not positioned above the component support member 220. Therefore, the lead component 410 on the component support member 220 is imaged by the camera 290 at the timing when the component holding head 302 is moved above the component carrier 388. Based on this imaging data, a new pickup target component is picked up by the component holding head 302. Thereby, it becomes possible to perform a pick-up work based on the latest information, and it is possible to ensure an appropriate pick-up work.
 なお、個別制御装置452は、図21に示すように、部品支持板226上のリード部品410が、ピックアップ対象部品410tと非ピックアップ対象部品410sとの何れであるかの判定を行う機能部として、判定部470を有している。また、個別制御装置452は、判定部470によりピックアップ対象部品410tであると判定されたリード部品410を、部品保持具332によって保持するように、部品保持ヘッド移動装置300と部品保持ヘッド302との作動を制御する機能部として、作動制御部472を有している。 As shown in FIG. 21, the individual control device 452 is a functional unit that determines whether the lead component 410 on the component support plate 226 is the pickup target component 410t or the non-pickup target component 410s. A determination unit 470 is included. In addition, the individual control device 452 is configured such that the component holding head moving device 300 and the component holding head 302 hold the lead component 410 determined by the determination unit 470 as the pickup target component 410t by the component holder 332. An operation control unit 472 is provided as a functional unit that controls the operation.
 (b)リード部品の部品収納器への回収
 また、部品支持部材220上に散在するピックアップ対象部品のピックアップ作業が進むと、部品支持部材220上には、非ピックアップ対象部品が多く残存する。このような場合には、部品支持部材220上のリード部品410は、部品戻し装置86の作動により、部品収納器100に戻される。詳しくは、リード部品410が部品収納器100に戻される際には、まず、部品支持部材220が、部品支持部材移動装置222の作動により、部品供給器82の下方に向かって移動させられる。この際、図24に示すように、部品支持部材220上のリード部品410は、部品供給器82の傾斜板152の第3の傾斜面160によって堰き止められる。このため、部品支持部材220が部品供給器82の下方に向かって移動すると、部品支持部材220上のリード部品410は、部品支持部材220に対して前方に相対移動し、部品回収容器262の内部に掻き落とされる。
(B) Collection of lead parts into the parts container Further, when the pickup work of the parts to be picked up scattered on the part support member 220 proceeds, many non-pickup target parts remain on the part support member 220. In such a case, the lead component 410 on the component support member 220 is returned to the component container 100 by the operation of the component return device 86. Specifically, when the lead component 410 is returned to the component container 100, the component support member 220 is first moved downward of the component feeder 82 by the operation of the component support member moving device 222. At this time, as shown in FIG. 24, the lead component 410 on the component support member 220 is blocked by the third inclined surface 160 of the inclined plate 152 of the component supplier 82. For this reason, when the component support member 220 moves downward of the component feeder 82, the lead component 410 on the component support member 220 moves relatively forward with respect to the component support member 220, and the inside of the component collection container 262 It is scraped off.
 なお、部品支持部材220が部品供給器82の下方に向かって移動する際には、カム部材240からカムフォロワ242に部品支持部材220の移動方向と同じ方向の力が作用するが、カムフォロワ242のレバー252は、図9に示すように、コイルばねの弾性力に抗して、回動する。このため、カムフォロワ242のローラ254が、カム部材240の歯245を乗り越える際に、レバー252が回動し、部品供給器82は振動しない。これにより、部品支持部材220が部品供給器82の下方に向かって移動する際に、リード部品410は、部品収納器100から部品支持部材220に排出されない。 When the component support member 220 moves downward of the component feeder 82, a force in the same direction as the movement direction of the component support member 220 acts on the cam follower 242 from the cam member 240, but the lever of the cam follower 242 As shown in FIG. 9, 252 rotates against the elastic force of the coil spring. For this reason, when the roller 254 of the cam follower 242 gets over the teeth 245 of the cam member 240, the lever 252 rotates and the component feeder 82 does not vibrate. As a result, when the component support member 220 moves downward of the component supplier 82, the lead component 410 is not discharged from the component container 100 to the component support member 220.
 部品支持部材220が部品供給器82の下方に移動した後、つまり、部品支持部材220が退避位置に移動した後に、図12に示すように、部品回収容器262が、容器昇降装置260の作動により、上昇する。この際、部品回収容器262の上昇に伴って、シャッタ265がコイルスプリング282の弾性力により上昇し、図13に示すように、部品供給器82の傾斜板152の前方を塞ぐ。これにより、部品供給器82からのリード部品410の排出が防止される。 After the component support member 220 moves below the component feeder 82, that is, after the component support member 220 moves to the retracted position, the component collection container 262 is moved by the operation of the container lifting device 260 as shown in FIG. ,To rise. At this time, as the component collection container 262 is raised, the shutter 265 is raised by the elastic force of the coil spring 282 to block the front of the inclined plate 152 of the component feeder 82 as shown in FIG. As a result, discharge of the lead component 410 from the component supplier 82 is prevented.
 そして、部品回収容器262が、さらに上昇すると、部品回収容器262に配設された突出ピン272が、サイドフレーム部190の内側に配設された係合ブロック274に係合する。これにより、図10に示すように、部品回収容器262は回動する。この際、部品回収容器262の底面が鉛直となり、部品回収容器262の部品収納器100側の壁面が部品収納器100に向かう傾斜面となる。このため、部品回収容器262内のリード部品410は、全て、部品収納器100の内部に戻される。 Then, when the parts collection container 262 further rises, the projecting pins 272 arranged in the parts collection container 262 engage with the engagement blocks 274 arranged inside the side frame portion 190. Thereby, as shown in FIG. 10, the component collection container 262 rotates. At this time, the bottom surface of the component collection container 262 is vertical, and the wall surface of the component collection container 262 on the component container 100 side is an inclined surface toward the component container 100. For this reason, all the lead components 410 in the component collection container 262 are returned to the interior of the component container 100.
 なお、ばら部品供給装置32では、部品支持板226上に散在されたリード部品410が、部品保持具332によってピックアップされる際に、側壁部228に近いリード部品410であっても、部品保持具332によってピックアップされる。このため、部品収納器100に戻されるリード部品410の数を少なくすることが可能となる。 In the loose component supply device 32, even when the lead components 410 scattered on the component support plate 226 are picked up by the component holder 332, even if the lead component 410 is close to the side wall 228, the component holder Picked up by 332. For this reason, the number of lead components 410 returned to the component container 100 can be reduced.
 また、リード部品410が部品収納器100の内部に戻される際において、リード部品410の戻し作業が行われている部品供給ユニット98と別の部品供給ユニット98において、リード部品410の供給作業を行うことが可能である。詳しくは、カム部材240にカムフォロワ242が係合し、部品供給器82が振動している際に、部品支持部材220上にリード部品410が排出される。このため、部品支持部材220の部品供給器82から離れた側、つまり、前方側の上面にリード部品410は散在している。一方、部品回収容器262は、図25に示すように、部品供給器82に最も接近した位置において、上昇し、部品回収容器262内のリード部品410が、部品収納器100に戻される。このため、リード部品410の戻し作業が行われている部品供給ユニット98と別の部品供給ユニット98の部品支持部材220上でリード部品410のピックアップ作業が行われていても、部品保持ヘッド302と部品回収容器262とは干渉しない。これにより、所定の部品供給ユニット98でのリード部品410の戻し作業と、その所定の部品供給ユニット98と別の部品供給ユニット98でのリード部品410の供給作業とを、同時に行うことが可能である。 Further, when the lead component 410 is returned to the inside of the component container 100, the lead component 410 is supplied by the component supply unit 98 that is different from the component supply unit 98 in which the lead component 410 is returned. It is possible. Specifically, when the cam follower 242 is engaged with the cam member 240 and the component feeder 82 is vibrating, the lead component 410 is discharged onto the component support member 220. Therefore, the lead components 410 are scattered on the side of the component support member 220 away from the component feeder 82, that is, on the upper surface on the front side. On the other hand, as shown in FIG. 25, the component collection container 262 rises at the position closest to the component supplier 82, and the lead component 410 in the component collection container 262 is returned to the component container 100. Therefore, even if the lead component 410 is picked up on the component support member 220 of another component supply unit 98 and the component supply unit 98 in which the lead component 410 is returned, the component holding head 302 It does not interfere with the parts collection container 262. Thereby, the return operation of the lead component 410 in the predetermined component supply unit 98 and the supply operation of the lead component 410 in the predetermined component supply unit 98 and another component supply unit 98 can be performed simultaneously. is there.
 (c)リード部品の交換
 また、生産対象の回路基材12が変更される際には、供給すべきリード部品410を交換する必要がある。このような場合には、フレーム96から部品供給器82が取り外され、新たな種類のリード部品410に対応する部品供給器82が、フレーム96に装着される。詳しくは、部品支持部材220上のリード部品410が部品収納器100の内部に戻された後に、作業者は、部品供給器82のグリップ104を把持し、図26に示すように、可動把持部材172を固定把持部材170に向かって搖動させる。この際、可動把持部材172の係合部材184は、固定把持部材170の第1切欠部180の内部に進入する。そして、係合部材184が第2切欠部182の上端に至ると、部品供給器82の自重により、係合部材184が第2切欠部182の下端に落ち込む。これにより、可動把持部材172の下端に取り付けられた爪部材216の係合ロッド214への係合が解除され、部品供給器82をフレーム96、つまり、1対のサイドフレーム部190の間から取り外すことが可能となる。
(C) Replacement of lead component When the circuit substrate 12 to be produced is changed, it is necessary to replace the lead component 410 to be supplied. In such a case, the component supplier 82 is removed from the frame 96, and the component supplier 82 corresponding to the new type of lead component 410 is attached to the frame 96. Specifically, after the lead component 410 on the component support member 220 is returned to the interior of the component container 100, the operator grips the grip 104 of the component feeder 82, and as shown in FIG. 172 is swung toward the fixed gripping member 170. At this time, the engaging member 184 of the movable gripping member 172 enters the first notch 180 of the fixed gripping member 170. When the engaging member 184 reaches the upper end of the second notch 182, the engaging member 184 falls to the lower end of the second notch 182 due to the weight of the component feeder 82. Thereby, the engagement of the claw member 216 attached to the lower end of the movable gripping member 172 with the engagement rod 214 is released, and the component feeder 82 is removed from the frame 96, that is, between the pair of side frame portions 190. It becomes possible.
 また、グリップ104が把持され、可動把持部材172が固定把持部材170に向かって搖動した際には、部品収納器100は、ハウジング102の内部において、支持軸134を中心に上方に向かって搖動する。この際、図27に示すように、部品収納器100の傾斜面116の前方側の端部が、ブラシ144の先端部と近接、若しくは接触する。これにより、部品供給器82がフレーム96から取り外される際に、部品収納器100の内部からのリード部品410の排出を防止することが可能となる。また、ブラシ144と傾斜面116との間に、リード部品410が挟まった場合であっても、ブラシ144の弾性変形により、リード部品410の破損を防止することが可能となる。さらに言えば、可動把持部材172の係合部材184は固定把持部材170の第2切欠部182の下端に落ち込んでいるため、作業者が部品供給器82をフレーム96から取り外した後に、グリップ104から手を離しても、可動把持部材172はスプリングの弾性力により搖動せず、部品収納器100の位置が維持される。このため、作業者が部品供給器82をフレーム96から取り外した後に、グリップ104から手を離した場合であっても、部品収納器100の傾斜面116と、ブラシ144の先端部とは、近接、若しくは接触しており、部品収納器100の内部からのリード部品410の排出が防止される。 Further, when the grip 104 is gripped and the movable gripping member 172 is slid toward the fixed gripping member 170, the component container 100 swings upward around the support shaft 134 inside the housing 102. . At this time, as shown in FIG. 27, the end portion on the front side of the inclined surface 116 of the component container 100 approaches or contacts the tip portion of the brush 144. This makes it possible to prevent the lead component 410 from being discharged from the inside of the component container 100 when the component supplier 82 is removed from the frame 96. Further, even when the lead component 410 is sandwiched between the brush 144 and the inclined surface 116, the lead component 410 can be prevented from being damaged by the elastic deformation of the brush 144. Furthermore, since the engaging member 184 of the movable gripping member 172 has fallen into the lower end of the second notch 182 of the fixed gripping member 170, after the operator removes the component feeder 82 from the frame 96, Even if the hand is released, the movable gripping member 172 does not swing due to the elastic force of the spring, and the position of the component container 100 is maintained. For this reason, even if the operator removes the hand from the grip 104 after removing the parts supplier 82 from the frame 96, the inclined surface 116 of the parts container 100 and the tip of the brush 144 are close to each other. Or the lead component 410 is prevented from being discharged from the inside of the component container 100.
 そして、フレーム96から部品供給器82が取り外されると、新たな種類のリード部品410に対応する部品供給器82が、1対のサイドフレーム部190の間に挿入される。この際、図26に示すように、部品供給器82の側壁120の下端部に形成された切欠部196を、サイドフレーム部190の係合ピン192に係合させ、図5に示すように、側壁120の前端部に設けられた係合ピン206を、サイドフレーム部190の支持部材200の傾斜面202に係合させる。これにより、部品供給器82が、1対のサイドフレーム部190の間において位置決めされる。そして、作業者が、グリップ104の係合部材184を第2切欠部182の下端から上端に移動させることで、可動把持部材172は、スプリングの弾性力により固定把持部材170から離れる方向に搖動する。この際、可動把持部材172の下端部に取り付けられた爪部材216が、係合ロッド214に係合する。これにより、部品供給器82は、フレーム96にロックされる。 Then, when the component supplier 82 is removed from the frame 96, the component supplier 82 corresponding to the new type of lead component 410 is inserted between the pair of side frame portions 190. At this time, as shown in FIG. 26, the notch 196 formed at the lower end of the side wall 120 of the component feeder 82 is engaged with the engagement pin 192 of the side frame 190, and as shown in FIG. The engaging pin 206 provided at the front end portion of the side wall 120 is engaged with the inclined surface 202 of the support member 200 of the side frame portion 190. Thereby, the component supplier 82 is positioned between the pair of side frame portions 190. Then, when the operator moves the engaging member 184 of the grip 104 from the lower end of the second notch 182 to the upper end, the movable gripping member 172 swings away from the fixed gripping member 170 by the elastic force of the spring. . At this time, the claw member 216 attached to the lower end portion of the movable gripping member 172 engages with the engagement rod 214. As a result, the component supplier 82 is locked to the frame 96.
 また、可動把持部材172が固定把持部材170から離れる方向に搖動した際には、部品収納器100は、ハウジング102の内部において、支持軸134を中心に下方に向かって搖動する。この際、図6に示すように、部品収納器100の傾斜面116の前方側の端部が、下方に移動し、ブラシ144の先端部と傾斜面116との間が開口する。これにより、部品収納器100に投入されたリード部品410を、収納部112から排出することが可能となる。このように、ばら部品供給装置32では、部品供給器82を交換することで、供給すべきリード部品410を容易に交換することが可能となる。 Also, when the movable gripping member 172 swings away from the fixed gripping member 170, the component container 100 swings downward about the support shaft 134 inside the housing 102. At this time, as shown in FIG. 6, the front end portion of the inclined surface 116 of the component container 100 moves downward, and an opening is formed between the tip end portion of the brush 144 and the inclined surface 116. As a result, the lead component 410 put into the component container 100 can be discharged from the storage unit 112. In this way, in the bulk component supply device 32, the lead component 410 to be supplied can be easily replaced by replacing the component supplier 82.
 なお、部品供給器82が交換された際には、新たにフレーム96に取り付けられた部品供給器82のRFID217からID情報が送信され、フレーム96のフレーム本体部210に設けられている受信器218が、そのID情報を受信する。そして、そのID情報に基づいて、新たにフレーム96に取り付けられた部品供給器82により供給されるリード部品410の照合が行われる。 When the component supplier 82 is replaced, ID information is transmitted from the RFID 217 of the component supplier 82 newly attached to the frame 96, and the receiver 218 provided in the frame main body 210 of the frame 96. Receives the ID information. Based on the ID information, the lead component 410 supplied by the component supplier 82 newly attached to the frame 96 is collated.
 ちなみに、上記実施例において、ばら部品供給装置32は、部品供給システムの一例である。部品供給器82は、収納部の一例である。撮像装置88は、撮像装置の一例である。部品支持部材220は、部品支持部の一例である。部品支持板226は、部品支持面の一例である。側壁部228は、壁面の一例である。部品保持ヘッド移動装置300は、移動装置の一例である。部品保持具332は、保持具の一例である。爪部338は、爪部の一例である。側面428は、把持面の一例である。個別制御装置452は、制御装置の一例である。判定部470は、判定部の一例である。作動制御部472は、作動制御部の一例である。 Incidentally, in the above embodiment, the bulk component supply device 32 is an example of a component supply system. The component supplier 82 is an example of a storage unit. The imaging device 88 is an example of an imaging device. The component support member 220 is an example of a component support portion. The component support plate 226 is an example of a component support surface. The side wall part 228 is an example of a wall surface. The component holding head moving device 300 is an example of a moving device. The component holder 332 is an example of a holder. The claw part 338 is an example of a claw part. The side surface 428 is an example of a gripping surface. The individual control device 452 is an example of a control device. The determination unit 470 is an example of a determination unit. The operation control unit 472 is an example of an operation control unit.
 なお、本発明は、上記実施例に限定されるものではなく、当業者の知識に基づいて種々の変更、改良を施した種々の態様で実施することが可能である。具体的には、例えば、上記実施例では、部品保持具332による保持対象の部品として、リード414を有するリード部品410が採用されているが、リードの無い部品を採用することが可能である。詳しくは、リードの無い部品においても、部品保持具332の1対の爪部338により挟持される1対の面(以下、「挟持予定面」と記載する場合がある)は、予め設定されている。このため、例えば、リードの無い部品が、部品支持板226上に散在されている際に、リードの無い部品の挟持予定面が、側壁部228に接触、若しくは、接近している場合には、部品保持具332によって、その部品を保持することはできない。一方、リードの無い部品の挟持予定面と異なる面が、側壁部228に接触、若しくは、接近しており、挟持予定面と側壁部228との間に所定のクリアランスが有る場合には、部品保持具332によって、その部品を保持することは可能である。このため、部品保持具332による保持対象の部品として、リードの無い部品が採用される場合においても、挟持予定面と側壁部228との間の距離が設定距離以上である部品は、ピックアップ対象部品410tとされ、挟持予定面と側壁部228との間の距離が設定距離未満である部品は、非ピックアップ対象部品410sとされる。 In addition, this invention is not limited to the said Example, It is possible to implement in the various aspect which gave various change and improvement based on the knowledge of those skilled in the art. Specifically, for example, in the above embodiment, the lead component 410 having the lead 414 is employed as a component to be held by the component holder 332, but a component without a lead can be employed. Specifically, even in a component without a lead, a pair of surfaces sandwiched by a pair of claws 338 of the component holder 332 (hereinafter may be referred to as “planned clamping surface”) is set in advance. Yes. For this reason, for example, when parts without leads are scattered on the component support plate 226, if the planned holding surface of the parts without leads is in contact with or close to the side wall portion 228, The component cannot be held by the component holder 332. On the other hand, when a surface different from the planned clamping surface of the component without lead is in contact with or close to the side wall portion 228, there is a predetermined clearance between the planned clamping surface and the side wall portion 228. The tool 332 can hold the part. Therefore, even when a lead-free component is adopted as a component to be held by the component holder 332, a component whose distance between the planned clamping surface and the side wall portion 228 is equal to or larger than a set distance is a pickup target component. The part that is 410t and the distance between the planned clamping surface and the side wall part 228 is less than the set distance is the non-pickup target part 410s.
 また、上記実施例では、部品を保持する保持具として、爪部338により挟持する部品保持具332、所謂、チャック型の保持具が採用されているが、負圧エアを利用して部品を吸着保持する吸着ノズルを採用することが可能である。吸着ノズルは、部品支持板226に載置された部品の上方を向いた面を吸着保持するが、部品が側壁部228の近くに位置している場合には、吸着ノズルが部品に接近した際に、吸着ノズルと側壁部228とが接触する虞がある。このため、側壁部228との間の距離が設定距離以上である部品は、ピックアップ対象部品410tとされ、側壁部228との間の距離が設定距離未満である部品は、非ピックアップ対象部品410sとされる。これにより、吸着ノズルと側壁部228との接触を防止することが可能となる。なお、この際の設定距離は、吸着ノズルの径方向の大きさ,側壁部228の高さ等に応じて設定することが可能である。 In the above-described embodiment, a component holder 332 sandwiched by the claw portion 338, that is, a so-called chuck-type holder, is used as a holder for holding the component. It is possible to employ a suction nozzle to be held. The suction nozzle sucks and holds the surface facing upward of the component placed on the component support plate 226. When the component is located near the side wall portion 228, the suction nozzle approaches the component. In addition, there is a possibility that the suction nozzle and the side wall portion 228 come into contact with each other. For this reason, a part whose distance from the side wall part 228 is equal to or larger than the set distance is a pickup target part 410t, and a part whose distance from the side wall part 228 is less than the set distance is a non-pickup target part 410s. Is done. This makes it possible to prevent contact between the suction nozzle and the side wall portion 228. The set distance at this time can be set according to the size of the suction nozzle in the radial direction, the height of the side wall portion 228, and the like.
 また、上記実施例では、部品支持部材220上のリード部品410が、部品保持ヘッド302の部品保持具332によってピックアップされているが、部品支持部材220上のリード部品410を、作業ヘッド60,62の部品保持具66によりピックアップすることが可能である。具体的には、例えば、作業ヘッド60,62の移動可能範囲を部品支持部材220の上方に拡大することで、部品支持部材220上のリード部品410を、撮像装置26によって撮像することが可能である。これにより、撮像装置26の撮像データに基づいて、リード部品410の位置情報,姿勢情報等が演算される。そして、演算された情報に基づいて、作業ヘッド移動装置64の作動を制御することで、部品支持部材220上のリード部品410を、作業ヘッド60,62の部品保持具66によりピックアップすることが可能となる。ちなみに、部品支持部材220上のリード部品410が作業ヘッド60,62の部品保持具66によりピックアップされる場合には、ばら部品供給装置32の部品供給器82,部品散在状態実現装置84と、撮像装置26と、部品装着装置24とによって、本発明の「部品供給システム」が構成される。 In the above embodiment, the lead component 410 on the component support member 220 is picked up by the component holder 332 of the component holding head 302. However, the lead component 410 on the component support member 220 is used as the work heads 60 and 62. It can be picked up by the component holder 66. Specifically, for example, the lead component 410 on the component support member 220 can be imaged by the imaging device 26 by expanding the movable range of the work heads 60 and 62 above the component support member 220. is there. Thereby, based on the imaging data of the imaging device 26, position information, posture information, and the like of the lead component 410 are calculated. The lead component 410 on the component support member 220 can be picked up by the component holder 66 of the work heads 60 and 62 by controlling the operation of the work head moving device 64 based on the calculated information. It becomes. Incidentally, when the lead component 410 on the component support member 220 is picked up by the component holder 66 of the work heads 60 and 62, the component supplier 82 of the bulk component supply device 32, the component scattered state realization device 84, and the imaging. The device 26 and the component mounting device 24 constitute the “component supply system” of the present invention.
 32:ばら部品供給装置(部品供給システム)  82:部品供給器(収納部)  88:撮像装置  220:部品支持部材(部品支持部)  226:部品支持板(部品支持面)  228:側壁部(壁面)  300:部品保持ヘッド移動装置(移動装置)  332:部品保持具(保持具)  338:爪部  428:側面(把持面)  452:個別制御装置(制御装置)  470:判定部  472:作動制御部 32: Bulk component supply device (component supply system) 82: Component supply device (storage unit) 88: Imaging device 220: Component support member (component support unit) 226: Component support plate (component support surface) 228: Side wall (wall surface) ) 300: Component holding head moving device (moving device) 332: Component holding device (holding device) 338: Claw portion 428: Side surface (gripping surface) 452: Individual control device (control device) 470: Determination unit 472: Operation control unit

Claims (3)

  1.  複数の部品を収納する収納部と、
     前記収納部から排出された複数の部品を散在された状態で支持する部品支持面と、前記部品支持面からの部品の脱落を防止するための壁面とを有する部品支持部と、
     前記部品支持面により支持されている部品を撮像する撮像装置と、
     前記部品支持面により支持されている部品を保持する保持具と、
     前記保持具を前記部品支持面の上方において任意の位置に移動させる移動装置と、
     前記保持具と前記移動装置との作動を制御する制御装置と
     を備え、
     前記制御装置が、
     前記撮像装置により撮像された画像の画像データに基づいて、前記保持具による保持対象の部品である対象部品を前記保持具により保持する際に、前記保持具と前記壁面、又は、前記対象部品以外の部品とが干渉するか否かを判定する判定部と、
     前記判定部によって前記保持具と前記壁面、又は、前記対象部品以外の部品とが干渉しないと判定された前記対象部品のみを、前記保持具によって保持するように、前記保持具と前記移動装置との作動を制御する作動制御部と
     を有することを特徴とする部品供給システム。
    A storage section for storing a plurality of parts;
    A component support portion having a component support surface for supporting a plurality of components discharged from the storage portion in a scattered state, and a wall surface for preventing the component from falling off from the component support surface;
    An imaging device for imaging a component supported by the component support surface;
    A holder for holding a component supported by the component support surface;
    A moving device for moving the holder to an arbitrary position above the component support surface;
    A control device for controlling the operation of the holder and the moving device,
    The control device is
    Based on the image data of the image captured by the imaging device, when holding the target component, which is a component to be held by the holder, by the holder, the holder and the wall surface, or other than the target component A determination unit for determining whether or not the component of the
    The holding tool and the moving device so that the holding tool holds only the target component determined by the determination unit that the holding tool and the wall surface or a component other than the target component do not interfere with each other. An operation control unit for controlling the operation of the component supply system.
  2.  前記保持具が、
     複数の爪部を有し、それら複数の爪部によって、前記対象部品の予め設定された側面である把持面を把持する構造であり、
     前記判定部が、
     前記撮像装置により撮像された画像の画像データに基づいて、前記部品支持部の壁面、又は、前記対象部品以外の部品と前記対象部品の把持面との間の距離が設定距離以上であるか否かを判定し、前記部品支持部の壁面、又は、前記対象部品以外の部品と前記対象部品の把持面との間の距離が前記設定距離以上である場合に、前記対象部品を前記保持具により保持する際に、前記保持具と前記壁面とが干渉せず、前記部品支持部の壁面、又は、前記対象部品以外の部品と前記対象部品の把持面との間の距離が前記設定距離未満である場合に、前記対象部品を前記保持具により保持する際に、前記保持具と前記壁面とが干渉すると判定することを特徴とする請求項1に記載の部品供給システム。
    The holder is
    It has a structure having a plurality of claws, and grips a gripping surface which is a preset side surface of the target component by the plurality of claws.
    The determination unit is
    Whether the distance between the wall surface of the component support part or the component other than the target component and the gripping surface of the target component is greater than or equal to a set distance based on image data of an image captured by the imaging device When the distance between the wall surface of the component support part or a component other than the target component and the gripping surface of the target component is equal to or greater than the set distance, the target component is When holding, the holder and the wall surface do not interfere with each other, and the distance between the wall surface of the component support portion or a component other than the target component and the gripping surface of the target component is less than the set distance. 2. The component supply system according to claim 1, wherein in some cases, when the target component is held by the holder, it is determined that the holder and the wall surface interfere with each other.
  3.  前記保持具が、
     前記複数の爪部によって、前記把持面の予め設定された設定部を把持する構造であり、
     前記判定部が、
     前記撮像装置により撮像された画像の画像データに基づいて、前記部品支持部の壁面、又は、前記対象部品以外の部品と前記把持面の設定部との間の距離が前記設定距離以上であるか否かを判定し、前記部品支持部の壁面、又は、前記対象部品以外の部品と前記把持面の設定部との間の距離が前記設定距離以上である場合に、前記対象部品を前記保持具により保持する際に、前記保持具と前記壁面とが干渉せず、前記部品支持部の壁面、又は、前記対象部品以外の部品と前記把持面の設定部との間の距離が前記設定距離未満である場合に、前記対象部品を前記保持具により保持する際に、前記保持具と前記壁面とが干渉すると判定することを特徴とする請求項2に記載の部品供給システム。
    The holder is
    The plurality of claws are configured to grip a preset setting portion of the gripping surface,
    The determination unit is
    Whether the distance between the wall surface of the component support unit or a component other than the target component and the setting unit of the gripping surface is greater than or equal to the set distance based on image data of an image captured by the imaging device And when the distance between the wall surface of the component support portion or a component other than the target component and the setting portion of the gripping surface is equal to or larger than the set distance, the target component is When holding by the above, the holder and the wall surface do not interfere with each other, and the distance between the wall surface of the component support part or a part other than the target part and the setting part of the gripping surface is less than the set distance. 3. The component supply system according to claim 2, wherein when the target component is held by the holder, it is determined that the holder and the wall surface interfere with each other.
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