WO2016035195A1 - 部品実装装置 - Google Patents
部品実装装置 Download PDFInfo
- Publication number
- WO2016035195A1 WO2016035195A1 PCT/JP2014/073380 JP2014073380W WO2016035195A1 WO 2016035195 A1 WO2016035195 A1 WO 2016035195A1 JP 2014073380 W JP2014073380 W JP 2014073380W WO 2016035195 A1 WO2016035195 A1 WO 2016035195A1
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- WO
- WIPO (PCT)
- Prior art keywords
- component
- temporary placement
- hole
- pressure
- unit
- Prior art date
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Classifications
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- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05K—PRINTED CIRCUITS; CASINGS OR CONSTRUCTIONAL DETAILS OF ELECTRIC APPARATUS; MANUFACTURE OF ASSEMBLAGES OF ELECTRICAL COMPONENTS
- H05K13/00—Apparatus or processes specially adapted for manufacturing or adjusting assemblages of electric components
- H05K13/04—Mounting of components, e.g. of leadless components
- H05K13/046—Surface mounting
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- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05K—PRINTED CIRCUITS; CASINGS OR CONSTRUCTIONAL DETAILS OF ELECTRIC APPARATUS; MANUFACTURE OF ASSEMBLAGES OF ELECTRICAL COMPONENTS
- H05K13/00—Apparatus or processes specially adapted for manufacturing or adjusting assemblages of electric components
- H05K13/04—Mounting of components, e.g. of leadless components
- H05K13/0417—Feeding with belts or tapes
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- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05K—PRINTED CIRCUITS; CASINGS OR CONSTRUCTIONAL DETAILS OF ELECTRIC APPARATUS; MANUFACTURE OF ASSEMBLAGES OF ELECTRICAL COMPONENTS
- H05K13/00—Apparatus or processes specially adapted for manufacturing or adjusting assemblages of electric components
- H05K13/08—Monitoring manufacture of assemblages
- H05K13/082—Integration of non-optical monitoring devices, i.e. using non-optical inspection means, e.g. electrical means, mechanical means or X-rays
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
- Y10T—TECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
- Y10T29/00—Metal working
- Y10T29/49—Method of mechanical manufacture
- Y10T29/49002—Electrical device making
- Y10T29/49004—Electrical device making including measuring or testing of device or component part
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
- Y10T—TECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
- Y10T29/00—Metal working
- Y10T29/49—Method of mechanical manufacture
- Y10T29/49002—Electrical device making
- Y10T29/49117—Conductor or circuit manufacturing
- Y10T29/49124—On flat or curved insulated base, e.g., printed circuit, etc.
- Y10T29/4913—Assembling to base an electrical component, e.g., capacitor, etc.
- Y10T29/49131—Assembling to base an electrical component, e.g., capacitor, etc. by utilizing optical sighting device
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
- Y10T—TECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
- Y10T29/00—Metal working
- Y10T29/53—Means to assemble or disassemble
- Y10T29/5313—Means to assemble electrical device
- Y10T29/53191—Means to apply vacuum directly to position or hold work part
Definitions
- the present invention relates to a component mounting apparatus.
- a component mounting apparatus that mounts components on a board
- the nozzle is moved onto the board and the nozzle is released from the suction at a predetermined position on the board.
- the one that mounts the component is known.
- a device in which suction of a component is released on the temporary placement surface and the component is placed on the temporary placement surface before the nozzle moves to the substrate after the component is attracted (patent) Reference 1).
- Patent Document 1 also describes that a negative pressure supply hole is provided on the temporary placement surface. The component placed on the temporary placement surface is fixed so as not to move on the temporary placement surface by supplying negative pressure to the negative pressure supply hole.
- the nozzle releases the suction of the part on the temporary placement surface and performs the operation of placing the part on the temporary placement surface, it may fail to place the component on the temporary placement surface. In such a case, it may be possible to check the presence or absence of a component by imaging the temporary placement surface after performing such an operation. However, since it takes time to process the image, the time required for mounting the component becomes longer, and the throughput ( There has been a problem that the component mounting capacity per unit time is reduced.
- the present invention has been made to solve the above-described problems, and has as its main object to quickly determine whether or not a component has actually been temporarily placed on a temporary placement surface in a component mounting apparatus.
- the component mounting apparatus of the present invention is Parts supply means for supplying parts; Component adsorbing means capable of adsorbing the component; Moving means for moving the component suction means; Board holding means for holding a board on which the component is mounted; Having a hole at a predetermined position, and a temporary placement surface for temporarily placing the component at the predetermined position; Pressure adjusting means capable of supplying at least negative pressure to the hole; Pressure detecting means for detecting the pressure of the hole; Control for controlling the component suction unit and the moving unit so that the component is temporarily placed at the predetermined position after the component suction unit sucks the component supplied by the component supply unit and before the component is mounted on the substrate.
- the control means controls the part to be temporarily placed at the predetermined position, and then the part is actually temporarily placed at the predetermined position based on the pressure state of the hole with negative pressure supplied to the hole. It is determined whether or not it has been performed, and processing according to the result of the determination is executed.
- This component mounting apparatus controls so that the component supplied by the component supply means is temporarily placed at a predetermined position on the temporary placement surface before being mounted on the substrate after the component suction means sucks it.
- the component mounting apparatus controls whether or not the component is temporarily placed at a predetermined position, and then whether or not the component is actually temporarily placed at a predetermined position based on the pressure state of the hole while negative pressure is supplied to the hole. And processing according to the result of the determination is executed. In this way, since it is determined whether or not the part has actually been temporarily placed based on the pressure state of the hole on the temporary placement surface, the determination can be made quickly. Therefore, the throughput is improved.
- the temporary placement surface is preferably a flat surface.
- a component supply means supplies a component
- the component is supplied using a tape, a tray, or the like.
- the tape or the tray is not flat and the component is likely to be rattled.
- the component suction unit sucks the component supplied by the component supply unit, it is difficult to accurately suck a predetermined specific position.
- the temporary placement surface is a flat surface here, when the component suction means re-sucks the component placed on the temporary placement surface, the specific position can be suctioned with high accuracy.
- the component mounting apparatus of the present invention includes a side imaging unit capable of imaging a component adsorbed by the component adsorbing unit from the side, and the control unit is configured to capture the side image if the determination result is negative.
- the component picking-up means is picked up by the means, and it is determined whether or not the component picking-up means is picking up the part based on the picked-up image, and the determination result is notified to the operator to perform the series of processing. May be canceled. In this way, when the part is not temporarily placed on the temporary placement surface, the worker is not temporarily placed to inform the worker whether or not the part is still sucked by the part suction means. Find parts easily.
- the component mounting apparatus of the present invention includes upper surface imaging means capable of imaging the upper surface of the component temporarily placed on the temporary placement surface, and the control means is temporarily placed if the determination result is affirmative.
- the top surface of the component is picked up by the top image pickup means, the position of the component is specified based on the picked-up image, the part is picked up again by the component suction means, and the specified position of the component is set.
- control unit may control the pressure adjusting unit so that the pressure of the hole becomes atmospheric pressure or positive pressure when the component is re-adsorbed to the component adsorption unit. Good. In this way, the component suction means can re-suck the components smoothly. In particular, when the hole pressure is positive, the effect is enhanced.
- the control unit controls the component to be re-adsorbed to the component adsorption unit, and then supplies the negative pressure to the hole based on the pressure state of the hole. Is actually re-adsorbed to the component adsorbing means, and if the result of the second determination is affirmative, the series of processing is continued, and the result of the second determination is negative If so, the series of processes may be interrupted. In this way, it is possible to continue the series of processes after recognizing whether or not the part is actually re-sucked from the temporary placement surface.
- FIG. 3 is an explanatory diagram of the mounting system 10.
- FIG. 3 is an explanatory diagram of the mounting head 24.
- FIG. Explanatory drawing of the component 660 with a light emission part. The top view of the temporary placement surface 71.
- FIG. The flowchart of a component mounting program. The flowchart of a suction process routine.
- FIG. 6 is an explanatory diagram illustrating a state in which a light emitting part-equipped component 660 on the tape 60 is imaged. Explanatory drawing which shows a mode that the components 660 with a light emission part on the temporary placement surface 71 are imaged.
- FIG. 1 is an explanatory view of the mounting system 10
- FIG. 2 is an explanatory view of the mounting head 24
- FIG. 3 is an explanatory view of the reel 57
- FIG. 4 is an explanatory view of a component 660 with a light emitting part
- the mounting system 10 includes a component mounting apparatus 11 that mounts components on a substrate 12 and a management computer 90 that manages and sets information related to the mounting processing.
- the left-right direction (X-axis), the front-rear direction (Y-axis), and the up-down direction (Z-axis) are as shown in FIG.
- the mounting process includes a process of placing, arranging, mounting, inserting, joining, or adhering components on a substrate.
- the component mounting apparatus 11 is provided in the transporting unit 18 that transports the substrate 12, the sampling unit 21 that performs the mounting process of sampling components and placing them on the substrate 12, and the sampling unit 21.
- the mark camera 34, a reel unit 56 that holds a number of reels 57, a temporary placement table 70 that temporarily places components, and a control device 80 that controls the entire apparatus such as the sampling unit 21 and the mark camera 34 are provided.
- the transport unit 18 includes support plates 20 and 20 that are provided at intervals in the front and rear direction in FIG. 1 and extend in the left-right direction, and conveyor belts 22 and 22 that are provided on the surfaces of the support plates 20 and 20 that face each other. ing.
- the conveyor belts 22 and 22 are stretched over the drive wheels and the driven wheels provided on the left and right sides of the support plates 20 and 20 so as to be endless.
- the substrate 12 is carried on the upper surfaces of the pair of conveyor belts 22 and 22 and is conveyed from left to right.
- the substrate 12 is supported from the back side thereof by a large number of standing support pins 23. Therefore, the transport unit 18 also serves to hold the substrate 12.
- the sampling unit 21 includes a mounting head 24, an X-axis slider 26, a Y-axis slider 30, and the like.
- the mounting head 24 is attached to the front surface of the X-axis slider 26.
- the X-axis slider 26 is attached to the front surface of the Y-axis slider 30 that can slide in the front-rear direction so as to be slidable in the left-right direction.
- the Y-axis slider 30 is slidably attached to a pair of left and right guide rails 32, 32 extending in the front-rear direction.
- the guide rails 32 and 32 are fixed inside the component mounting apparatus 11.
- a pair of upper and lower guide rails 28, 28 extending in the left-right direction are provided on the front surface of the Y-axis slider 30, and the X-axis slider 26 is attached to the guide rails 28, 28 so as to be slidable in the left-right direction.
- the mounting head 24 moves in the left-right direction as the X-axis slider 26 moves in the left-right direction, and moves in the front-rear direction as the Y-axis slider 30 moves in the front-rear direction.
- Each slider 26 and 30 is driven by a drive motor (not shown).
- the mounting head 24 includes a nozzle 40 that picks up and collects components, and a nozzle holder 42 that can be attached and detached with one or more nozzles 40.
- the nozzle holder 42 includes a total of four nozzle holders to which the nozzles 40 can be attached every 90 °.
- the nozzle holder 42 is held by the mounting head 24 in a rotatable state.
- the nozzle 40 uses pressure to adsorb components at the nozzle tip or release components adsorbed at the nozzle tip.
- the nozzle 40 is moved up and down in a Z-axis direction (vertical direction) orthogonal to the X-axis and Y-axis directions by a holder lifting device using a Z-axis motor 45 as a drive source.
- the holder lifting / lowering device lifts and lowers only one nozzle 40 stopped at the operating position (see FIG. 2) in the Z-axis direction. Therefore, the nozzle 40 stopped at a position other than the operating position is fixed at the upper position.
- the nozzle 40 in the operating position moves to the upper position after attracting the parts supplied from the reel unit 56 in the lowered state, and then rotates 90 ° clockwise in FIG. 2 to face the side camera 44. Stop at the shooting position (see FIG. 2).
- the side camera 44 is attached to the mounting head 24 so as to be able to image a component adsorbed by the nozzle 40 at the imaging position, and outputs the captured image to the control device 80.
- the mark camera 34 is a device that images the substrate 12 and the like from above, and is disposed on the lower surface of the X-axis slider 26.
- the mark camera 34 has an imaging region below, images a reference mark attached to the substrate 12, and outputs the image to the control device 80.
- the reference mark is used for grasping the position of the substrate 12 or grasping the position of the component on the substrate 12.
- the mark camera 34 also images the upper surface of the component 66 accommodated in the tape 60 and the component 66 temporarily placed on the temporary placement table 70, and outputs the image to the control device 80.
- the mark camera 34 moves in the XY direction as the mounting head 24 moves.
- the reel unit 56 holds a reel 57 and a feeder 58.
- a plurality of reels 57 are detachably attached to the front side of the component mounting apparatus 11.
- the reel 57 is wound with a tape 60 in which a component 66 is accommodated in a concave accommodating portion 62.
- the upper surface of the tape 60 is covered with a film 64 so that the component 66 does not fall from the accommodating portion 62.
- the film 64 is peeled off from the tape 60 before it reaches a predetermined sampling position where the component 66 is picked up by the nozzle 40.
- the tape 60 has a large number of sprocket holes 67 along the longitudinal direction.
- a feeder 58 is provided for each reel 57.
- the feeder 58 includes a sprocket (not shown) that can be driven to rotate.
- a sprocket (not shown) that can be driven to rotate.
- the tape 60 is fed out in the direction of being unwound from the reel 57.
- the parts 66 accommodated in the accommodating part 62 of the tape 60 are sequentially sent out to a predetermined sampling position by the feeder 58.
- the tape 60 is cut by a cutter (not shown) every predetermined length at a cutting position behind the sampling position.
- At least one of the plurality of reels 57 is wound with a tape 60 containing a light emitting part-equipped component 660 as shown in FIG.
- the light emitting part-equipped component 660 has a rectangular LED 660a which is a light emitting part at a predetermined position on the upper surface.
- the predetermined suction position 660b sucked by the nozzle 40 on the upper surface of the light emitting part-equipped component 660 is set with reference to the center position 660c of the LED 660a.
- the predetermined suction position 660b is set as a position shifted from the center position 660c of the LED 660a by X1 in the X direction and Y1 in the Y direction.
- the light emitting part-equipped component 660 is mounted on the substrate 12 such that the LED 660a is disposed at a predetermined position on the substrate 12.
- the temporary placement table 70 temporarily absorbs the light emitting part-equipped component 660 supplied by the reel unit 56 with the nozzle 40 of the mounting head 24 and then mounts it on the substrate 12 held by the transport unit 18. This is a table for temporarily placing the light emitting part-equipped component 660.
- the temporary placement table 70 is provided between the transport unit 18 that holds the substrate 12 and the reel unit 56 that holds the reel 57.
- the upper surface of the temporary placement table 70 is a temporary placement surface 71 which is finished flat with high accuracy. As shown in FIG. 5, the temporary placement surface 71 has temporary placement table marks 72 at four corners. The temporary placement table mark 72 is used to recognize the position of the temporary placement surface 71.
- the temporary placement surface 71 is provided with four temporary placement areas 74 for placing the component 66, and a hole 73 is provided at the center of each temporary placement area 74.
- the hole 73 is connected in parallel to the vacuum pump 77 and the air compressor 78 through a switching valve 76 that is an electromagnetic valve. Therefore, by adjusting the switching valve 76, a negative pressure or a positive pressure can be supplied to the hole 73.
- a pressure sensor 75 that detects the pressure in the hole 73 is provided between the hole 73 and the switching valve 76.
- the control device 80 is configured as a microprocessor centered on a CPU 81, and includes a ROM 82 that stores a processing program, a RAM 83 that is used as a work area, an HDD 84 that stores various data, an external device and an electrical device. An input / output interface 85 for exchanging signals is provided, and these are connected via a bus 86.
- the control device 80 is connected to the transport unit 18, the sampling unit 21, the mark camera 34, the side camera 44, the reel unit 56 and the like so as to be capable of bidirectional communication, and image signals from the mark camera 34 and the side camera 44. Enter. Further, the control device 80 outputs a control signal to the switching valve 76.
- Each slider 26, 30 is equipped with a position sensor (not shown), and the control device 80 controls the drive motor of each slider 26, 30 while inputting position information from these position sensors.
- the management computer 90 is a PC that manages information related to component mounting processing, and includes an input device 97 such as a mouse and a keyboard, a display 98, and the like.
- Production job data is stored in an HDD (not shown) of the management computer 90.
- Production job data includes information such as how many parts are mounted in which order on which board, how many boards on which such parts are mounted, and so on. .
- the CPU 81 of the control device 80 mounts a plurality of components supplied by the reel unit 56 on the substrate 12 using the nozzles 40 according to the production job data.
- XYZ coordinates are set in advance.
- the component mounting apparatus 11 recognizes the positions of the X-axis slider 26, the Y-axis slider 30, and the Z-axis motor 45 using the XYZ coordinates.
- the CPU 81 causes the mark camera 34 to image the board mark of the board 12 and the temporary placement table mark 72 of the temporary placement surface 71 before starting the mounting of components, and the board mark and temporary placement table are based on these images.
- the coordinates of the mark 72 are specified, and the position where the substrate 12 is actually held and the position where the temporary placement surface 71 is disposed are recognized accurately.
- the CPU 81 of the control device 80 executes a suction processing routine (step S100), a temporary placement processing routine (step S200), and a re-suction / mounting processing routine (step S300) in this order.
- a suction processing routine step S100
- a temporary placement processing routine step S200
- a re-suction / mounting processing routine step S300
- the CPU 81 When the adsorption processing routine is started, the CPU 81 first sets the value 1 to the variable N of the counter in the RAM 83 (step S110). Subsequently, the CPU 81 rotates the mounting head 24 to place the Nth nozzle 40 at the operating position (step S115). Subsequently, as shown in FIG. 10, the CPU 81 causes the mark camera 34 to capture an image of the upper surface of the light emitting part-equipped component 660 at the sampling position (step S120). That is, the CPU 81 controls the X-axis slider 26 and the Y-axis slider 30 so that the mark camera 34 is located above the component 660 with the light emitting unit, and then includes the LED 660a of the component 660 with the light emitting unit at the position.
- the CPU 81 calculates the suction position 660b of the light emitting part-equipped component 660 (step S125).
- the CPU 81 calculates the outer contour of the light emitting part-equipped component 660 and the center position 660c of the LED 660a from the captured image data, and calculates the suction position 660b therefrom.
- the bottom surface of the accommodating portion 62 of the tape 60 is not flat, the light emitting part-equipped component 660 accommodated in the accommodating portion 62 is likely to rattle. For this reason, the calculated suction position 660b often does not actually coincide with a predetermined specific position.
- the CPU 81 causes the light emitting part-equipped component 660 on the tape 60 to be attracted to the Nth nozzle 40 (step S130). That is, the CPU 81 controls the X-axis slider 26 and the Y-axis slider 30 so that the N-th nozzle 40 comes directly above the suction position 660b of the component 660 with the light emitting unit, and then the tip of the N-th nozzle 40 The Z-axis motor 45 is controlled so as to come into contact with the suction position 660b. At the same time, the CPU 81 supplies a negative pressure to the Nth nozzle 40 and causes the nozzle 40 to attract the component 660 with the light emitting unit.
- the CPU 81 controls the Z-axis motor 45 so that the Nth nozzle 40 rises to the upper position. Subsequently, the CPU 81 causes the side camera 44 to image the vicinity of the tip of the Nth nozzle 40 (step S135). That is, the CPU 81 controls the mounting head 24 so that the N-th nozzle 40 is disposed at the photographing position, and then causes the side camera 44 to image the vicinity of the tip of the N-th nozzle 40 at that position, and obtains the image data. The data is loaded into the RAM 83. Subsequently, the CPU 81 determines whether or not the light emitting part-equipped component 660 is attracted to the tip of the Nth nozzle 40 (step S140).
- the CPU 81 executes error processing including display of the error code E1 (step S155), and ends the component mounting program. .
- the CPU 81 displays the error code E1 on a display (not shown) of the component mounting apparatus 11, sounds an alarm sound, and turns on the alarm lamp.
- the error code E1 indicates that the suction of the component on the tape 60 has failed. Therefore, the worker who has seen the error code E1 can easily know what work is required to cancel the error.
- step S145 determines whether or not the variable N is the maximum value (here, value 4) (step S145). If the variable N is not the maximum value, the value of the variable N is incremented by 1 (step S150), and the process returns to step 115 again. On the other hand, if the variable N is the maximum value in step S145, the components 660 with the light emitting parts are attracted to all the nozzles 40, and the process proceeds to the temporary placement processing routine (step S200).
- the CPU 81 When the temporary placement processing routine is started, the CPU 81 first controls the X-axis slider 26 and the Y-axis slider 30 so that the mounting head 24 is disposed above the temporary placement surface 71 (step S205). Subsequently, the CPU 81 sets a value 1 to the variable N of the counter of the RAM 83 (step S210). Subsequently, the CPU 81 rotates the mounting head 24 to place the Nth nozzle 40 at the operating position (step S215). Subsequently, the CPU 81 performs a temporary placement operation of the light emitting part-equipped component 660 (step S220).
- the CPU 81 causes the X-axis slider 26 and the Y-axis slider 30 to place the light emitting part-equipped component 660 adsorbed by the Nth nozzle 40 at a position above the Nth temporary placement area 74 of the temporary placement surface 71.
- the four temporary placement areas 74 are counted as first and second from the left.
- the CPU 81 lowers the Nth nozzle 40 so as to place the light emitting part-equipped component 660 in the Nth temporary placement area 74, and supplies positive pressure to the Nth nozzle 40.
- the CPU 81 controls the switching valve 76 so that negative pressure is supplied to the hole 73 of the Nth temporary placement area 74.
- the CPU 81 controls the Z-axis motor 45 so that the Nth nozzle 40 rises to the upper position. Subsequently, the CPU 81 determines whether or not the pressure in the hole 73 of the Nth temporary placement area 74 is less than a threshold value (step S225).
- a threshold value is less than the threshold value
- the hole 73 is the component with the light emitting portion.
- the negative pressure of the hole is set to be equal to or higher than the threshold value.
- the positive determination in step S225 means that the light emitting part-equipped component 660 has been temporarily placed in the temporary placement area 74 so as to cover the hole 73, and the negative determination means that the light emitting part-equipped component 660 This means that 660 has not been temporarily placed in the temporary placement area 74.
- the CPU 81 causes the side camera 44 to image the vicinity of the tip of the Nth nozzle 40 (step S240). ). That is, the CPU 81 controls the mounting head 24 so that the N-th nozzle 40 is disposed at the photographing position, and then causes the side camera 44 to image the vicinity of the tip of the N-th nozzle 40 at that position, and obtains the image data. The data is loaded into the RAM 83. Subsequently, the CPU 81 determines whether or not the light emitting part-equipped component 660 is attracted to the tip of the Nth nozzle 40 (step S245).
- the CPU 81 executes error processing including display of the error code E2 (step S250), and ends the component mounting program.
- the CPU 81 displays an error code E2 on a display (not shown) of the component mounting apparatus 11, sounds a warning sound, and turns on a warning lamp.
- the error code E2 indicates that the temporary placement of the component in the temporary placement area 74 has failed, and the nozzle 40 remains sucking the component. Therefore, the operator who has seen the error code E2 can easily know that the component that has failed in temporary placement is adsorbed by the nozzle 40.
- the CPU 81 executes error processing including display of the error code E3 (step S255), and the component mounting program Exit.
- the CPU 81 displays an error code E3 on a display (not shown) of the component mounting apparatus 11, sounds a warning sound, and turns on a warning lamp.
- the error code E3 indicates that the temporary placement of the component in the temporary placement area 74 has failed and the nozzle 40 has not picked up the component. Therefore, the operator who has seen the error code E3 can predict that the part has fallen between the reel unit 56 and the temporary placement table 70 or around the temporary placement table 70.
- step S230 determines whether or not the variable N is the maximum value. If the variable N is not the maximum value, the CPU 81 increments the variable N by 1 (step S235) and returns to step S215. On the other hand, if the variable N is the maximum value in step S230, the light emitting part-equipped components 660 are temporarily placed in all the temporary placement areas 74, so the CPU 81 performs the re-suction / mounting process routine (step S300). Proceed to
- the CPU 81 When the re-adsorption / mounting process routine is started, the CPU 81 first sets a value 1 to the variable N of the counter of the RAM 83 (step S310). Subsequently, the CPU 81 places the Nth nozzle 40 at the operating position (step S315). Subsequently, as shown in FIG. 11, the CPU 81 causes the mark camera 34 to image the upper surface of the light emitting part-equipped component 660 temporarily placed in the Nth temporary placement area 74 (step S320). That is, the CPU 81 controls the X-axis slider 26 and the Y-axis slider 30 so that the mark camera 34 comes above the light emitting part-equipped component 660 temporarily placed in the Nth temporary placement area 74, and then marks the mark camera 34 at that position.
- the camera 34 is caused to take an image of the upper surface including the LED 660 a of the light emitting part-equipped component 660 and the image data is taken into the RAM 83.
- the CPU 81 calculates a suction position of the light emitting part-equipped component 660 (step S325).
- the CPU 81 calculates the outer contour of the light emitting part-equipped component 660 and the center position 660c of the LED 660a from the captured image data, and calculates the suction position 660b therefrom.
- This process is the same as step S125, but the temporary placement surface 71 has good flatness, and thus the component 660 with the light emitting part is held horizontally. Therefore, the calculated suction position 660b coincides with a predetermined specific position with high accuracy.
- the CPU 81 causes the light emitting part-equipped component 660 temporarily placed in the Nth temporary placement area 74 to be attracted again to the Nth nozzle 40 (step S330). That is, the CPU 81 controls the X-axis slider 26 and the Y-axis slider 30 so that the N-th nozzle 40 comes directly above the suction position 660b of the light emitting part-equipped component 660 temporarily placed in the N-th temporary placement area 74. After that, the Z-axis motor 45 is controlled so that the tip of the Nth nozzle 40 contacts the suction position 660b. At the same time, the CPU 81 supplies negative pressure to the Nth nozzle 40 to cause the nozzle 40 to suck the component 660 with the light emitting unit.
- the CPU 81 controls the switching valve 76 so that positive pressure is supplied to the hole 73 of the Nth temporary placement area 74.
- the CPU 81 controls the Z-axis motor 45 so that the Nth nozzle 40 rises to the upper position.
- the CPU 81 controls the switching valve 76 so that the negative pressure is supplied again to the hole 73 of the Nth temporary storage area 74 (step S335), and whether or not the pressure of the hole 73 is equal to or higher than a threshold value. Determination is made (step S340).
- the threshold value may be set similarly to the threshold value in step S225 described above.
- step S365 the CPU 81 executes error processing including display of the error code E4 (step S365), and component mounting. Exit the program.
- the CPU 81 displays the error code E4 on a display (not shown) of the component mounting apparatus 11, sounds an alarm sound, and turns on the alarm lamp.
- the error code E4 indicates that the re-suction of the component from the temporary placement area 74 has failed and the component remains in the temporary placement area 74. Therefore, the operator who has seen the error code E4 can easily know that the part that has failed to be re-sucked remains on the temporary placement surface 71.
- the CPU 81 causes the side camera 44 to image the vicinity of the tip of the Nth nozzle 40 (step S345). . That is, the CPU 81 controls the mounting head 24 so that the N-th nozzle 40 is disposed at the photographing position, and then causes the side camera 44 to image the vicinity of the tip of the N-th nozzle 40 at that position, and obtains the image data. The data is loaded into the RAM 83. Subsequently, the CPU 81 determines whether or not the light emitting part-equipped component 660 is attracted to the tip of the Nth nozzle 40 (step S350).
- the CPU 81 executes error processing including display of the error code E5 (step S370), and ends the component mounting program. .
- the CPU 81 displays an error code E5 on a display (not shown) of the component mounting apparatus 11, sounds a warning sound, and turns on the warning lamp.
- the error code E5 indicates that the component has been removed from the nozzle 40 in the middle of the nozzle 40 once having re-sucked the component from the temporary placement area 74. Therefore, the operator who has seen the error code E5 can easily know that there are parts remaining around the temporary placement surface 71.
- step S350 determines whether or not the variable N is the maximum value (here, value 4) (step S355). If the variable N is not the maximum value, the value of the variable N is incremented by 1 (step S360), and the process returns to step 315 again. On the other hand, if the variable N is the maximum value in step S350, the components 660 with the light emitting unit are re-adsorbed to all the nozzles 40, so the mounting processing routine (step S375) is executed, and this component is executed. Close the implementation program.
- the CPU 81 moves the mounting head 24 onto the substrate 12 and the X-axis slider 26 and the Y-axis slider 30 so that the LED 660a of each light emitting part-equipped component 660 is disposed at the position specified by the production job data. And the Z-axis motor 45 and the pressure of the nozzle 40 are controlled.
- the reel unit 56 of this embodiment corresponds to the component supply means of the present invention
- the mounting head 24 corresponds to the component suction means
- the X-axis slider 26, the Y-axis slider 30, and the Z-axis motor 45 correspond to the moving means
- the support plate 20 and the support pin 23 correspond to the substrate holding means
- the switching valve 76, the vacuum pump 77, and the air compressor 78 correspond to the pressure adjusting means
- the pressure sensor 75 corresponds to the pressure detecting means
- the control device 80 performs control.
- the side camera 44 corresponds to a side imaging unit
- the mark camera 34 corresponds to a top surface imaging unit.
- the negative pressure is supplied to the hole 73 after controlling the component 660 with the light emitting unit to be temporarily placed in the temporary placement area 74 of the temporary placement surface 71.
- the temporary placement surface 71 is imaged and imaged. Compared with the case where the presence of the light emitting part-equipped component 660 is checked by analyzing the image, the determination can be made quickly. Therefore, the throughput is improved.
- the reel unit 56 supplies the light emitting part-equipped component 660
- the light emitting part-equipped component 660 is supplied using the tape 60.
- the tape 60 is not flat
- the light emitting component-equipped component 660 is Easy to beat. Therefore, when the nozzle 40 of the mounting head 24 sucks the light emitting part-equipped component 660 supplied by the reel unit 56, it is difficult to suck a predetermined specific suction position 660b with high accuracy.
- the temporary placement surface 71 is a flat surface, when the nozzle 40 of the mounting head 24 re-sucks the component 660 with the light emitting unit placed on the temporary placement surface 71, a specific surface is provided. The suction position 660b can be sucked with high accuracy.
- the CPU 81 confirms that the light emitting part-equipped component 660 has actually been temporarily placed in the temporary placement area 74 of the temporary placing surface 71, and then performs re-suction / mounting processing including imaging of the upper surface of the light-emitting part-equipped component 660. Run the routine. Therefore, it can be avoided that the re-sucking / mounting processing routine is wastefully executed when the light emitting part-equipped component 660 is not temporarily placed.
- the CPU 81 controls the switching valve 76 so that the pressure of the hole 73 becomes a positive pressure when the component 660 with the light emitting unit is re-adsorbed to the nozzle 40 of the mounting head 24. Therefore, the nozzle 40 can re-suck the light emitting part-equipped component 660 smoothly.
- the CPU 81 makes a negative determination in step S225, instead of executing steps S240 to S255, the CPU 81 simply performs error processing indicating that temporary placement has failed. May be executed. In this way, since error processing is performed without performing image analysis, it is possible to quickly notify the operator that temporary placement has failed, and throughput is further improved.
- the mounting head 24 includes the four nozzles 40, but the number of nozzles 40 is not particularly limited.
- the mounting head 24 may include one nozzle 40, or may include eight or twelve nozzles 40.
- the mounting head 24 including the eight nozzles 40 is used and the temporary placement surface 71 provided with the four temporary placement areas 74 as in the above-described embodiment is used, Only four of them may be used.
- the vacuum pump 77 and the air compressor 78 are provided for each of the four holes 73 of the temporary placement surface 71, but the vacuum pump 77 and the air compressor 78 may be integrated into one.
- the air compressor 78 is connected to the four holes 73 of the temporary placement surface 71.
- the air compressor 78 may not be provided and communicate with the atmosphere. In this case, instead of supplying positive pressure to the hole 73, atmospheric pressure is supplied.
- the light emitting part-equipped component 660 having the LED 660a attached to the upper surface is illustrated, and the predetermined suction position 660b is obtained from the center position 660c of the LED 660a.
- a mark indicating the polarity direction for example, “+” is provided on the upper surface of the component, and a predetermined suction position is obtained from the position of this mark. Good.
- step S250 of the temporary placement processing routine of the above-described embodiment the CPU 81 executes the error processing including the display of the error code E2. However, since the component 660 with the light emitting unit is attracted to the nozzle 40, Returning to step S220, the component temporary placement operation may be executed again.
- the reel unit 56 is exemplified as the component supply device, but a tray unit may be used instead of the reel unit 56.
- the specific suction position 660b determined in advance is re-sucked when the component 660 with the light emitting unit temporarily placed in the temporary placement area 74 is re-sucked, but not the specific suction position 660b.
- a predetermined design value may be attracted again. Even in this case, the component 660 with the light emitting unit can be mounted so that the LED 660 a is disposed at a predetermined position on the substrate 12.
- the present invention can be used for a component mounting apparatus for mounting electronic components on a substrate.
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- Engineering & Computer Science (AREA)
- Manufacturing & Machinery (AREA)
- Microelectronics & Electronic Packaging (AREA)
- Operations Research (AREA)
- Supply And Installment Of Electrical Components (AREA)
Abstract
Description
部品を供給する部品供給手段と、
前記部品を吸着可能な部品吸着手段と、
前記部品吸着手段を移動させる移動手段と、
前記部品が実装される基板を保持する基板保持手段と、
所定位置に穴を有し、前記部品を前記所定位置に仮置きするための仮置き面と、
前記穴に少なくとも負圧を供給可能な圧力調節手段と、
前記穴の圧力を検出する圧力検出手段と、
前記部品供給手段によって供給された部品を前記部品吸着手段が吸着した後前記基板上に実装する前に前記部品が前記所定位置に仮置きされるよう前記部品吸着手段及び前記移動手段を制御する制御手段と、
を備え、
前記制御手段は、前記部品が前記所定位置に仮置きされるよう制御した後、前記穴に負圧を供給した状態で前記穴の圧力状態に基づいて前記所定位置に前記部品が実際に仮置きされたか否かを判定し、該判定の結果に応じた処理を実行する
ものである。
Claims (6)
- 部品を供給する部品供給手段と、
前記部品を吸着可能な部品吸着手段と、
前記部品吸着手段を移動させる移動手段と、
前記部品が実装される基板を保持する基板保持手段と、
所定位置に穴を有し、前記部品を前記所定位置に仮置きするための仮置き面と、
前記穴に少なくとも負圧を供給可能な圧力調節手段と、
前記穴の圧力を検出する圧力検出手段と、
前記部品供給手段によって供給された部品を前記部品吸着手段が吸着した後前記基板上に実装する前に前記部品が前記所定位置に仮置きされるよう前記部品吸着手段及び前記移動手段を制御する制御手段と、
を備え、
前記制御手段は、前記部品が前記所定位置に仮置きされるよう制御した後、前記穴に負圧を供給した状態で前記穴の圧力状態に基づいて前記所定位置に前記部品が実際に仮置きされたか否かを判定し、該判定の結果に応じた処理を実行する、
部品実装装置。 - 前記仮置き面は、平坦面である、
請求項1に記載の部品実装装置。 - 請求項1又は2に記載の部品実装装置であって、
前記部品吸着手段に吸着された部品を側方から撮像可能な側方撮像手段
を備え、
前記制御手段は、前記判定の結果が否定判定ならば、前記側方撮像手段に前記部品吸着手段を撮像させ、該撮像された画像に基づいて前記部品吸着手段が前記部品を吸着しているか否かを判定し、その判定結果を作業者に報知して前記一連の処理を中止する、
部品実装装置。 - 請求項1~3のいずれか1項に記載の部品実装装置であって、
前記仮置き面に仮置きされた前記部品の上面を撮像可能な上面撮像手段
を備え、
前記制御手段は、前記判定の結果が肯定判定ならば、前記仮置きされた部品の上面を前記上面撮像手段に撮像させ、該撮像された画像に基づいて前記部品の位置を特定し、前記部品吸着手段にて前記部品を再吸着し、前記特定した前記部品の位置に基づき前記部品が前記基板上の実装位置に実装されるよう前記部品吸着手段及び前記移動手段を制御するという一連の処理を実行し、一方、前記判定の結果が否定判定ならば、前記一連の処理を中止する、
部品実装装置。 - 前記制御手段は、前記部品が前記部品吸着手段に再吸着される際、前記穴の圧力を大気圧又は正圧になるよう前記圧力調節手段を制御する、
請求項4に記載の部品実装装置。 - 前記制御手段は、前記部品が前記部品吸着手段に再吸着されるよう制御した後、前記穴に負圧を供給した状態で前記穴の圧力状態に基づいて前記部品が実際に前記部品吸着手段に再吸着されたか否かの第2判定を行い、該第2判定の結果が肯定判定ならば、前記一連の処理を続行し、前記第2判定の結果が否定判定ならば、前記一連の処理を中断する、
請求項4又は5に記載の部品実装装置。
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CN201480081606.0A CN106605459B (zh) | 2014-09-04 | 2014-09-04 | 元件安装装置 |
US15/508,521 US10349570B2 (en) | 2014-09-04 | 2014-09-04 | Component mounter |
PCT/JP2014/073380 WO2016035195A1 (ja) | 2014-09-04 | 2014-09-04 | 部品実装装置 |
JP2016546267A JP6412944B2 (ja) | 2014-09-04 | 2014-09-04 | 部品実装装置 |
EP14901354.2A EP3197255B1 (en) | 2014-09-04 | 2014-09-04 | Component mounting device |
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JP6891281B2 (ja) * | 2017-07-04 | 2021-06-18 | 株式会社Fuji | 部品実装装置 |
DE102017116042B4 (de) * | 2017-07-17 | 2019-03-21 | Asm Assembly Systems Gmbh & Co. Kg | Verfahren und Bestückautomat zum Bestücken von Bauelementeträgern mit elektronischen Bauelementen |
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JPWO2016035195A1 (ja) | 2017-06-15 |
EP3197255A1 (en) | 2017-07-26 |
EP3197255A4 (en) | 2017-09-06 |
US10349570B2 (en) | 2019-07-09 |
US20170280598A1 (en) | 2017-09-28 |
CN106605459B (zh) | 2019-12-24 |
EP3197255B1 (en) | 2019-10-23 |
CN106605459A (zh) | 2017-04-26 |
JP6412944B2 (ja) | 2018-10-24 |
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