JP2018018958A - Splicing device and splicing method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a splicing device and a splicing method capable of preventing misconnection reliably when connecting carrier tapes by means of a splicing tape.SOLUTION: Component information imparted to a front side carrier tape attached to a tape feeder (component supply device), component information imparted to a rear side carrier tape attached anew are recognized (ST1), and the component information of the rear side carrier tape is acquired (ST2). A determination is made whether or not the recognized component information matches the acquired component information (ST3). When they match (Yes in ST3), the front side carrier tape and rear side carrier tape are aligned (ST5), a splicing tape is pasted (ST6), and an identification number associated with the recognized component information and acquired component information is imparted to the pasted splicing tape (ST8).SELECTED DRAWING: Figure 7

Description

  The present invention relates to a splicing device and a splicing method for splicing a carrier tape containing components by a splicing tape.

  A new carrier tape (rear carrier tape) is attached to the rear end of the carrier tape (front carrier tape) mounted on the component supply device as a method of supplying parts to the component supply device for supplying components to the component mounting device. Splicing is known in which a splicing tape is attached and connected in a state where the front end portions are abutted. Among the splicing operations, there is known a splicing device that automates the operation of cutting and butting the front carrier tape and the rear carrier tape at predetermined positions and attaching the splicing tape (see, for example, Patent Document 1). ).

  Also, before splicing, the information attached to the tape reel that winds and stores the rear carrier tape is recognized, and the splicing tape on which the recognized information is printed is attached and connected to be built in the component supply device. A device that recognizes information printed on a splicing tape by a decoder and determines whether the information corresponds to information on a rear carrier tape that is expected to be mounted on the component supply device is known (for example, (See Patent Document 2).

JP 2014-225592 A JP 2004-165273 A

  However, in the prior art including Patent Document 1 and Patent Document 2, when the splicing tape is attached and the front and rear carrier tapes are connected, the wrong carrier is different from the rear carrier tape that recognizes the information attached to the tape reel. When the tape is connected, there is a problem that the erroneous connection cannot be prevented.

  Then, an object of this invention is to provide the splicing apparatus and the splicing method which can prevent reliably the misconnection at the time of splicing a carrier tape with a splicing tape.

  The splicing device of the present invention is a splicing device for splicing a carrier tape containing components with a splicing tape, and the component information attached to the front tape reel that winds and stores the front carrier tape mounted on the component supply device And a recognition unit for recognizing component information attached to a rear tape reel that winds and stores a rear carrier tape to be newly mounted on the component supply device, and the rear carrier joined by splicing An acquisition unit that acquires tape component information; a determination unit that determines whether the component information recognized by the recognition unit and the component information acquired by the acquisition unit; and a rear end portion of the front carrier tape; An alignment portion for aligning the front end portion of the rear carrier tape, and a rear end portion of the front carrier tape; An affixing unit that affixes the splicing tape so as to join the front end portion of the rear carrier tape, component information recognized by the recognition unit on the affixed splicing tape, and component information acquired by the acquisition unit And an attaching unit that assigns an identification number associated with the information, and when the determining unit determines that the component information recognized by the recognizing unit matches the component information acquired by the acquiring unit, the pasting unit A splicing tape is affixed, and the identification number is assigned to the splicing tape to which the applicator is attached.

  The splicing method of the present invention is a splicing method in which a carrier tape containing components is spliced with the splicing tape, and the component information attached to the front tape reel that winds and stores the front carrier tape mounted on the component supply device And a recognition step for recognizing component information attached to a rear tape reel that winds and stores a rear carrier tape that is newly mounted on the component supply device, and the rear carrier that is spliced together by the splicing An acquisition step for acquiring tape component information, a determination step for determining whether the component information recognized in the recognition step and the component information acquired in the acquisition step match, and the rear end of the front carrier tape An alignment process for aligning the portion and the front end portion of the rear carrier tape, An affixing step of affixing the splicing tape so that a rear end of the side carrier tape and a front end of the rear carrier tape are joined together, and component information recognized in the recognition step on the affixed splicing tape An assigning step for assigning an identification number associated with the component information acquired in the acquisition step, and in the determination step, the component information recognized in the recognition step and the component information acquired in the acquisition step Are determined to match, the splicing tape is affixed in the affixing step, and the identification number is affixed to the affixed splicing tape in the affixing step.

  According to the present invention, it is possible to reliably prevent erroneous connection when the carrier tape is spliced together with the splicing tape.

Configuration explanatory diagram of a component mounting system according to an embodiment of the present invention Explanatory drawing of the jig trolley which installed the component mounting apparatus and splicing apparatus of one embodiment of this invention Structure explanatory drawing of the tape feeder of one embodiment of this invention (A) (b) The figure explaining the splicing operation | work in the splicing apparatus of one embodiment of this invention Structure explanatory drawing of the splicing device of one embodiment of the present invention The block diagram which shows the structure of the control system of the component mounting system of one embodiment of this invention Flow chart of splicing method in splicing apparatus of one embodiment of the present invention (A) (b) (c) Splicing process explanatory drawing in the splicing apparatus of one embodiment of this invention The flowchart of the component supply method in the component supply system of one embodiment of this invention

  Hereinafter, an embodiment of the present invention will be described in detail with reference to the drawings. The configuration, shape, and the like described below are illustrative examples, and can be appropriately changed according to the specifications of the component mounting system, the component mounting device, the tape feeder, the splicing device, the carrier tape, and the splicing tape. Below, the same code | symbol is attached | subjected to the element which respond | corresponds in all the drawings, and the overlapping description is abbreviate | omitted.

  First, the component mounting system 1 will be described with reference to FIG. The component mounting system 1 connects the component mounting apparatus M1, the component mounting apparatus M2, and the component mounting apparatus M3 from the upstream side to the downstream side in the board conveyance direction (from the left side to the right side of the drawing). And the whole is controlled by the management computer 3. The component mounting system 1 has a function of mounting a component on a substrate and manufacturing a mounting substrate. The configuration of the component mounting system 1 is not limited to this example, and one, two, and four or more component mounting apparatuses M1 to M3 may be connected.

  Next, the configuration of the component mounting apparatuses M1 to M3 will be described with reference to FIG. The component mounting apparatuses M1 to M3 have the same configuration, and the component mounting apparatus M1 will be described below. The component mounting apparatus M1 is an apparatus that mounts the component 5 on the board 4. The substrate transport conveyor 7 provided on the upper surface of the base 6 transports and positions the substrate 4 in one direction in the horizontal plane (direction perpendicular to the paper surface in FIG. 2).

  The head moving mechanism 8 moves the mounting head 9. The mounting head 9 picks up the component 5 supplied from the tape feeder 10 attached to the side of the substrate transport conveyor 7 by the suction nozzle 9a and mounts it on the substrate 4 (arrow a). The component 5 is imaged by a component camera 11 disposed between the substrate transport conveyor 7 and the tape feeder 10 before being mounted on the substrate 4, and posture correction at the time of mounting is performed based on the obtained image recognition result. The

  The tape feeder 10 is attached to a feeder base 12a provided on an upper portion of a carriage 12 that is movable on the floor surface FS and coupled to the base 6. A tape reel R around which a carrier tape TP for supplying the stored component 5 to the component mounting apparatus M1 is wound and stored is held on the carriage 12 in a replaceable manner. On the side surface of each tape reel R, a one-dimensional or two-dimensional barcode L including the component information of the component 5 stored in the carrier tape TP to be wound and stored is attached.

  A jig carriage 15 that is movable on the floor surface FS is disposed behind the carriage 12. A splicing device 40 is fixed to the upper portion of the jig carriage 15 with screws (not shown). The splicing device 40 has a function of automatically executing splicing for splicing the front and rear carrier tapes TP with a splicing tape TS (see FIG. 4) described later. A barcode reader T that recognizes the barcode L is connected to the main body 40a of the splicing device 40 by a communication cable 40b.

  The main body 40a of the splicing device 40 is connected to the component mounting device M1 by a communication cable 40c. As a result, the splicing device 40 is connected to the communication network 2 via the component mounting device M1. The bar code reader T may be directly connected to the component mounting apparatus M1. Further, the barcode reader T may communicate with the component mounting apparatus M1 or the management computer 3 wirelessly. That is, the recognition result of the barcode reader T may be transmitted to the splicing device 40, the component mounting device M1, the tape feeder 10, and the management computer 3.

  Here, the structure of the carrier tape TP will be described with reference to FIG. The carrier tape TP is affixed to a tape main body 13 having a component pocket 13a for housing the component 5 and a tape feed hole 13b into which a feed pin 24a (see FIG. 3) of the sprocket 24 of the tape feeder 10 is fitted, and the component pocket 13a. It consists of a transparent top tape 14 attached. The tape feed holes 13b are periodically formed in the tape body 13 with a feed hole pitch Lh. That is, the tape feed holes 13b are provided in the carrier tape TP at an equal pitch.

  Next, the configuration and function of the tape feeder 10 will be described with reference to FIG. The tape feeder 10 has a function of transporting the carrier tape TP to a component removal position, and peeling the top tape 14 before the component removal position to supply the stored component 5. The tape feeder 10 includes a main body portion 10a and a mounting portion 10b that protrudes downward from the lower surface of the main body portion 10a. The tape feeder 10 is mounted on the feeder base 12a by mounting the mounting portion 10b on the feeder base 12a in a state where the lower surface of the main body portion 10a is along the feeder base 12a.

  Further, when the tape feeder 10 is mounted on the feeder base 12a, the feeder control unit 21 built in the tape feeder 10 is electrically connected to the mounting control unit 22 of the component mounting apparatuses M1 to M3. The feeder controller 21 controls the tape feeding operation of the carrier tape TP. Inside the main body 10a, there is provided a tape transport path 10c for guiding the carrier tape TP drawn from the tape reel R and inserted into the main body 10a. In the tape transport path 10c, a carrier tape TP opened at the end of the main body portion 10a on the upstream side in the tape feeding direction (hereinafter simply referred to as “upstream side” and the opposite direction as “downstream side”) is inserted. The insertion port 10d communicates with the discharge port 10e that opens downstream from the component removal position where the component 5 is sucked and removed by the mounting head 9.

  In FIG. 3, the main body 10a is provided with a tape feeding mechanism 23 for pitch feeding the carrier tape TP. The tape feeding mechanism 23 includes a sprocket 24 disposed in a posture in which the axis is orthogonal to the tape feeding direction at a downstream end portion of the main body portion 10a, and a driving mechanism 25 that rotationally drives the sprocket 24. Yes.

  The sprocket 24 has a plurality of feed pins 24a formed on the outer periphery. The drive mechanism 25 pitches the carrier tape TP along the tape transport path 10c by intermittently driving the sprocket 24 with the feed pin 24a engaged with the tape feed hole 13b of the carrier tape TP. The tape feeding mechanism 23 is controlled by the feeder control unit 21. That is, the tape feeding mechanism 23 serves as a transport unit that transports the carrier tape TP containing the component 5. The feeder control unit 21 is a control unit that controls the transfer of the carrier tape TP.

  In FIG. 3, a tape pressing cover 26 is disposed on the upper surface side of the main body 10 a near the sprocket 24. The carrier tape TP is pitch fed while being pressed against the tape transport path 10c by the tape pressing cover 26.

  In the process in which the carrier tape TP travels below the tape pressing cover 26, the top tape 14 is folded back by the cover tape peeling portion 27 and pulled out upstream, so that the top tape 14 is moved to the tape main body 13 at the upstream side of the component removal position. Is peeled off. Thereby, the component 5 in the component pocket 13a is exposed upward in the opening part 28, and can be taken out by the suction nozzle 9a. The peeled top tape 14 is guided to the side opposite to the pitch feeding direction by the cover tape feeding mechanism 29 and fed into the tape collecting unit 30 provided on the upstream side of the main body 10a.

  In FIG. 3, an operation / display panel 31 connected to the feeder control unit 21 is disposed on the upper surface on the upstream side of the tape feeder 10. The operation / display panel 31 is provided with various operation buttons such as an operation button for operating a tape feeding operation by the tape feeding mechanism 23, a tape returning operation, and a cover tape feeding operation by the cover tape feeding mechanism 29. Further, the operation / display panel 31 is provided with display means such as a liquid crystal display or a 7-segment LED for displaying the operation status of the tape feeder 10.

  On the upstream side of the part take-out position of the tape transport path 10c, the joining for detecting the joining point where the succeeding carrier tape TP is joined to the preceding carrier tape TP by the splicing tape TS for replenishment of the part 5 A detection sensor S is provided. The joint detection sensor S is a transmissive optical sensor including a light projecting unit Sa that projects detection light and a light receiving unit Sb that receives detection light. The detection result of the joint detection sensor S is sent to the feeder control unit 21. The joint detection sensor S detects that there is an engagement portion when the tape feed hole 13b that has been periodically detected in the conveyed carrier tape TP is shielded from light by the splicing tape TS and is no longer detected.

  Next, the configuration and function of the splicing device 40 will be described with reference to FIGS. 4 and 5. When the mounting of the component 5 on the substrate 4 proceeds, the rear end of the carrier tape TP (hereinafter referred to as “front carrier tape TP1”) already supplied to the tape feeder 10 is the tape reel R (hereinafter referred to as “front tape reel”). R1 ”), or a state where it will soon fall off. Therefore, splicing is performed in which the rear end of the front carrier tape TP1 and the front end of a newly replenished carrier tape TP (hereinafter referred to as “rear carrier tape TP2”) are brought into contact with each other by the splicing tape TS.

  Hereinafter, the tape reel R around which the rear carrier tape TP2 is wound and stored is referred to as a “rear tape reel R2”. The front tape reel R1 is attached with a bar code L including component information of the component 5 housed in the front carrier tape TP1. The rear tape reel R2 is attached with a bar code L including component information of the component 5 accommodated in the rear carrier tape TP2. That is, the bar code reader T winds the front carrier tape TP1 attached to the tape feeder 10 (component supply device) and stores the component information attached to the front tape reel R1 for storing the tape, and the tape feeder 10 (component supply device). It becomes a recognition unit for recognizing the component information attached to the rear tape reel R2 that winds and stores the rear carrier tape TP2 to be newly mounted.

  4 and 5, the tape feeding direction of the carrier tape TP by the tape feeder 10 is referred to as the downstream side, and the opposite direction of the downstream side is referred to as the upstream side. 4A, a front tape insertion port 41a is provided on the downstream side of the side surface of the splicing device 40, and a rear tape insertion port 41b is provided on the upstream side (see also FIG. 2).

  FIG. 5 schematically shows the internal structure of the splicing device 40. The front carrier tape TP1 inserted from the front tape insertion port 41a and the rear carrier tape TP2 inserted from the rear tape insertion port 41b are respectively connected to the left and right end side traveling paths 42 and the center side traveling path 44. It is conveyed to the upper surface of the lower structure part 46 arrange | positioned in the center of the splicing apparatus 40, being guided. Sprockets 43 that engage with the tape feed holes 13b of the front carrier tape TP1 and the rear carrier tape TP2 are provided below the left and right end side traveling paths 42.

  The sprocket 43 is driven by a motor (not shown). By rotating the sprocket 43, the front carrier tape TP1 and the rear carrier tape TP2 are conveyed inward. Cutting means 45 for cutting the front carrier tape TP1 and the rear carrier tape TP2 is disposed between the left and right end side traveling paths 42 and the center side traveling path 44, respectively. The front carrier tape TP1 and the rear carrier tape TP2 are controlled by the sprocket 43 according to the detection result of a sensor (not shown), and the cutting means 45 cuts the center position of the predetermined tape feed hole 13b (see FIG. 4A). It is cut at location B and location of cut location C).

  In FIG. 5, an alignment pin 47 is provided so as to be movable up and down in an escape hole 48 provided in the middle of the upper surface of the lower structure 46. The alignment pin 47 rises and causes the upper portion to escape from the hole 48 when aligning the front carrier tape TP1 and the rear carrier tape TP2. Further, the alignment pin 47 is lowered and moved into the escape hole 48 at the time of tape sticking and tape punching, which will be described later.

  When aligning, the front carrier tape TP1 conveyed from the left and right by the sprocket 43 and the cut tape feed hole 13b of the rear tape insertion port 41b are in contact with the rising alignment pin 47, and the alignment is performed. Is called. That is, the sprocket 43, the motor that drives the sprocket 43, the lower structure 46, and the alignment pin 47 are the rear end portion (cutting point B) of the front carrier tape TP1 and the front end portion (cutting point C) of the rear carrier tape TP2. It becomes the position alignment part 49 which performs the position alignment which butt | matches.

  In FIG. 5, a pasting portion 50 and a perforated portion 51 are disposed above the lower structure portion 46. The affixing portion 50 moves above the front carrier tape TP1 and the rear tape insertion port 41b aligned with the lower structure portion 46, and affixes and joins the splicing tape TS. That is, the affixing portion 50 has a function of affixing the splicing tape TS that joins the rear end portion of the front carrier tape TP1 and the front end portion of the rear carrier tape TP2.

  A plurality of punches 52 (here, seven) that can move up and down are arranged in a row at intervals below the feed hole pitch Lh. A plurality of die holes 53 (six in this case) are provided on the upper surface of the lower structure portion 46 so as to correspond to the plurality of punches 52 of the perforated portion 51. In this example, the relief hole 48 where the alignment pin 47 is lowered also serves as a die hole. The punching unit 51 lowers (or raises) the designated punch 52 by a predetermined amount based on a command from an identification number determination unit 54 (see FIG. 6) described later.

  The perforated part 51 descends from above the lower structure part 46 in a state where the designated punch 52 is lowered, and at the position of the predetermined tape feed hole 13b of the splicing tape TS attached to the engaging portion, An identification hole H (see FIG. 4B) penetrating the splicing tape TS is opened. Note that the hole punching portion 51 may not be lowered as a whole, but the specified punch 52 may be lowered to open the identification hole H in the splicing tape TS. Further, the number of punches 52 and die holes 53 can be freely set according to the length of the splicing tape TS (the length in the transport direction of the carrier tape TP).

  The splicing device 40 has the above structure. Next, the splicing work by the splicing device 40 will be described. As shown in FIG. 4 (a), first, an operator carries the front carrier tape TP1 from the front tape insertion port 41a (arrow d), and the rear carrier tape TP2 from the rear tape insertion port 41b (arrow e), respectively. Inserted. The following splicing operations are automatically executed in the splicing device 40. First, the splicing device 40 conveys the front carrier tape TP1 to the inside, and cuts the rear end at the cutting location B. Similarly, the splicing device 40 conveys the rear carrier tape TP2 inward, and cuts the front end at the cutting location C.

  Next, the splicing device 40 abuts the cut portion B of the front carrier tape TP1 with the cut portion C of the rear carrier tape TP2, and attaches the splicing tape TS. In this manner, the splicing device 40 automatically splices the carrier tape TP containing the component 5 with the splicing tape TS. Next, the splicing device 40 cuts the position of the predetermined tape feed hole 13b of the splicing tape TS to make a hole. As shown in FIG. 4B, the front carrier tape TP1 and the rear carrier tape TP2 after the splicing are taken out from the front surface of the splicing device 40 by the operator (arrow f).

  Next, the control system of the component mounting system 1 will be described with reference to FIG. Here, only items related to splicing and component supply will be described. The component mounting apparatuses M1 to M3 included in the component mounting system 1 have the same configuration, and the component mounting apparatus M1 will be described below. The component mounting apparatus M1 includes a mounting control unit 22, a mounting storage unit 61, a mounting collation unit 62, a mounting information transmission unit 63, and a communication unit 64. The communication unit 64 is a communication interface, and exchanges signals and data with the management computer 3, the tape feeder 10, and the splicing device 40 via the communication network 2.

  The mounting storage unit 61 stores various information such as mounting component information 61a in addition to the component mounting data. The mounted component information 61a includes the component information of the component 5 supplied by the tape feeder 10 mounted on the component mounting apparatus M1, the rear carrier tape to be spliced to or spliced to the tape feeder 10 The component information of the component 5 stored in the TP2 and the identification number assigned to the rear carrier tape TP2 when splicing are included.

  The mounting collation unit 62 stores the component information attached to the rear tape reel R2 around which the rear carrier tape TP2 scheduled to be joined recognized by the barcode reader T is wound and stored in the mounting component information 61a. It is checked whether or not it matches the part information of the part 5 scheduled to be joined. Further, the mounting collation unit 62 matches the identification number assigned to the splicing tape TS read by the tape feeder 10 with the identification number assigned to the rear carrier tape TP2 stored in the mounting component information 61a. Check whether or not to do.

  In response to a request from the splicing device 40, the mounting information transmitting unit 63 transmits the component information of the rear carrier tape TP2 to be spliced stored in the mounting component information 61a to the splicing device 40 that is the request source. In response to a request from the tape feeder 10, the mounting information transmission unit 63 transmits the component information and identification number of the joined rear carrier tape TP2 stored in the mounting component information 61a to the requesting tape feeder 10. To do.

  6, the management computer 3 includes a management control unit 71, a management storage unit 72, a management collation unit 73, a management information transmission unit 74, an input unit 75, a display unit 76, and a communication unit 77. The input unit 75 is an input device such as a keyboard, a touch panel, or a mouse, and is used when an operation command or data is input. The display unit 76 is a display device such as a liquid crystal panel, and displays various information in addition to various screens such as an operation screen for operation by the input unit 75. The communication unit 77 is a communication interface, and exchanges signals and data with the component mounting apparatuses M1 to M3, the tape feeder 10, and the splicing apparatus 40 via the communication network 2.

  The management control unit 71 is an arithmetic device such as a CPU, and manages the component mounting system 1 based on various information stored in the management storage unit 72. The management storage unit 72 is a storage device, and stores various information such as management component information 72a in addition to component mounting data. The managed component information 72a includes the component information of the component 5 supplied by the tape feeder 10 mounted on the component mounting apparatuses M1 to M3, and the rear side to be spliced to the tape feeder 10 by splicing or The component information of the component 5 accommodated in the carrier tape TP2 and the identification number assigned to the rear carrier tape TP2 when splicing are included.

  In the management collation unit 73, the component information attached to the rear tape reel R2 around which the rear carrier tape TP2 scheduled to be joined recognized by the barcode reader T is wound and stored is stored in the management component information 72a. It is checked whether or not it matches the part information of the part 5 scheduled to be joined. In addition, the management collation unit 73 matches the identification number assigned to the splicing tape TS read by the tape feeder 10 with the identification number assigned to the rear carrier tape TP2 stored in the management component information 72a. Check whether or not to do.

  In response to a request from the splicing device 40, the management information transmission unit 74 transmits the component information of the rear carrier tape TP2 to be spliced stored in the management component information 72a to the splicing device 40 that is the request source. In response to a request from the tape feeder 10, the management information transmission unit 74 transmits the component information and identification number of the joined rear carrier tape TP2 stored in the management component information 72a to the requesting tape feeder 10. To do.

  6, the tape feeder 10 includes a feeder control unit 21, a feeder storage unit 81, a feeder acquisition unit 82, a decoding unit 83, a feeder determination unit 84, a tape feeding mechanism 23, a joint detection sensor S, an operation / display panel 31, A communication unit 85 is provided. The communication unit 85 is a communication interface, and exchanges signals and data with the component mounting apparatuses M1 to M3, the management computer 3, and the splicing apparatus 40 via the communication network 2.

  The feeder storage unit 81 stores various types of information such as feeder part information 81a. The feeder part information 81a includes the part information of the part 5 accommodated in the currently supplied front carrier tape TP1, the identification number assigned when the front carrier tape TP1 is spliced, and the like. Further, the feeder part information 81a includes part information of the part 5 accommodated in the joined rear carrier tape TP2, an identification number given by being linked when the rear carrier tape TP2 is spliced, and the like. It is.

  The feeder control unit 21 controls the tape feeding mechanism 23 to transfer the front carrier tape TP1 and the rear carrier tape TP2, and executes a transfer operation from the front carrier tape TP1 to the rear carrier tape TP2. The feeder acquisition unit 82 transmits a request to the component mounting apparatuses M1 to M3 or the management computer 3, acquires information transmitted by the mounting information transmission unit 63 or the management information transmission unit 74, and stores it as feeder component information 81a. That is, the feeder acquisition unit 82 is an acquisition unit that acquires the identification number attached to the rear carrier tape TP2 joined by splicing and the component information of the component 5 stored in the rear carrier tape TP2.

  In FIG. 6, the decoding unit 83 decodes the detection patterns of the tape feed holes 13b and the identification holes H of the carrier tape TP to be transported detected by the joint detection sensor S, and the position (joint position) of the splicing tape TS. And the binary identification number given to the splicing tape TS is decoded. That is, the tape feeding mechanism 23, the joint detection sensor S, and the decoding unit 83 are a reading unit that reads the identification number given to the splicing tape TS in which the front carrier tape TP1 and the rear carrier tape TP2 (carrier tape TP) are joined together. It becomes. The reading unit includes a light projecting unit Sa that projects detection light and a light receiving unit Sb that receives the detection light, and reads the identification number from the presence or absence of the detection light passing through the identification hole H.

  The feeder determination unit 84 determines whether or not the identification number stored in the feeder part information 81a matches the identification number decoded by the decoding unit 83. That is, the feeder determination unit 84 determines whether or not the identification number acquired by the feeder acquisition unit 82 (acquisition unit) matches the identification number read by the reading unit (joint detection sensor S, decoding unit 83). It becomes a judgment part. Further, the feeder determination unit 84 determines whether or not the component information recognized by the barcode reader T matches the component information acquired by the feeder acquisition unit 82.

  In addition, when the identification numbers do not match, the feeder determination unit 84 does not match the identification number of the rear carrier tape TP2 joined to the display means of the operation / display panel 31 and the identification number given to the splicing tape TS. Notify that it is abnormal. In addition, when the component information does not match, the feeder determination unit 84 causes the display unit of the operation / display panel 31 to display a mismatch between the component information decoded by the reading unit and the component information acquired by the feeder acquisition unit 82. Notify that there is. That is, the operation / display panel 31 serves as a notification unit that notifies abnormality.

  In FIG. 6, the splicing device 40 includes a splicing control unit 91, a splicing storage unit 92, a splicing acquisition unit 93, a splicing determination unit 94, an identification number determination unit 54, a barcode reader T, an alignment unit 49, a pasting unit 50, a hole An opening 51 and a communication unit 95 are provided. The communication unit 95 is a communication interface, and exchanges signals and data with the component mounting apparatuses M1 to M3, the management computer 3, and the tape feeder 10 via the communication network 2.

  The splicing storage unit 92 stores various information such as splicing part information 92a. The splicing component information 92a includes the component information of the component 5 stored in the rear carrier tape TP2 scheduled to be spliced, and the rear tape on which the rear carrier tape TP2 scheduled to be spliced recognized by the barcode reader T is wound and stored. The component information of the reel R2 is included.

  The splicing control unit 91 controls the alignment unit 49 to execute alignment for abutting the rear end portion of the front carrier tape TP1 with the front end portion of the rear carrier tape TP2. Further, the splicing control unit 91 controls the sticking unit 50 to stick the splicing tape TS so that the rear end portion of the front carrier tape TP1 and the front end portion of the rear carrier tape TP2 are joined. In addition, the splicing control unit 91 controls the perforating unit 51 to cause the splicing tape TS to open the identification hole H corresponding to the identification number assigned by being tied to the rear carrier tape TP2.

  In FIG. 6, a splicing acquisition unit 93 transmits a request to the component mounting apparatuses M1 to M3 or the management computer 3, acquires information transmitted by the mounting information transmission unit 63 or the management information transmission unit 74, and is used as splicing component information 92a. Remember me. That is, the splicing acquisition unit 93 is an acquisition unit that acquires component information of the rear carrier tape TP2 that is spliced together. As shown in FIG. 2, the splicing device 40 is connected to the component mounting devices M <b> 1 to M <b> 3 by a communication cable 40 c and communicates with the tape feeder 10 via the communication unit 95 and the communication network 2. That is, the splicing acquisition unit 93 (acquisition unit) acquires component information stored in the tape feeder 10 (component supply device) by wire.

  In FIG. 6, the splicing determination unit 94 determines whether or not the component information stored in the splicing component information 92a matches the component information of the rear tape reel R2 recognized by the barcode reader T. That is, the splicing determination unit 94 is a determination unit that determines whether or not the component information recognized by the barcode reader T (recognition unit) matches the component information acquired by the splicing acquisition unit 93 (acquisition unit).

  The identification number determination unit 54 determines an identification number based on a predetermined rule from the component information of the joined rear carrier tape TP2. The predetermined rule is, for example, that the lower bits (or upper bits) of the component information having the same number of digits as the maximum number of digits of the identification hole H that can be opened in the splicing tape TS by the punching unit 51 are used as the identification number. Further, the identification number determination unit 54 converts the identification number into a binary number. That is, the identification number determination unit 54 is a conversion unit that converts the identification number into a binary number.

  The perforating part 51 (giving part) is positioned at a predetermined tape feeding hole 13b among the tape feeding holes 13b covered with the splicing tape TS based on the binary number converted by the identification number determining part 54 (conversion part). The identification hole H that opens through the splicing tape TS is opened. That is, the punching unit 51 has an identification number in which the component information recognized by the barcode reader T (recognition unit) and the component information acquired by the splicing acquisition unit 93 (acquisition unit) are associated with the attached splicing tape TS. It becomes the grant part which grants. The assigned identification numbers are transmitted to the component mounting apparatuses M1 to M3 or the management computer 3, and are stored as mounting component information 61a or management component information 72a, respectively.

  Next, a splicing method for splicing the carrier tape TP containing the component 5 by the splicing device 40 with the splicing tape TS according to the flow of FIG. 7 will be described with reference to FIG. First, the worker conveys the splicing device 40 arranged on the jig carriage 15 and the rear carrier tape TP2 to be replenished to the component mounting apparatuses M1 to M3 to which the tape feeder 10 that needs to be replenished with the component 5 is mounted. Next, the worker connects the communication cable 40c of the splicing device 40 to the component mounting devices M1 to M3 to be supplied.

  Next, the operator reads the barcode L of the front tape reel R1 wound and stored (or stored) with the barcode reader T by winding the front carrier tape TP1 mounted on the tape feeder 10 to be replenished. Recognizes the component information of the front carrier tape TP1. Next, the operator reads the barcode L of the rear tape reel R2 that winds and stores the rear carrier tape TP2 to be supplied with the barcode reader T, and recognizes the component information of the rear carrier tape TP2.

  That is, the component information attached to the front tape reel R1 for winding and storing the front carrier tape TP1 mounted on the tape feeder 10 (component supply device) and the new information is mounted on the tape feeder 10 (component supply device). The component information attached to the rear tape reel R2 that winds and stores the rear carrier tape TP2 is recognized (ST1: splicing recognition step) (recognition step). Next, the splicing acquisition unit 93 acquires component information of the rear carrier tape TP2 scheduled for replenishment from the component mounting apparatuses M1 to M3 or the management computer 3 (ST2: splicing acquisition step) (acquisition step). That is, the component information of the rear carrier tape TP2 joined by splicing is acquired.

  In FIG. 7, the splicing determination unit 94 then determines whether or not the component information recognized from the rear tape reel R2 matches the component information acquired from the component mounting apparatuses M1 to M3 or the management computer 3 (ST3: Component information determination step) (determination step). That is, it is determined whether or not the component information recognized in the splicing recognition step (ST1) (recognition step) matches the component information acquired in the splicing acquisition step (ST2) (acquisition step). That is, it is confirmed whether or not the rear carrier tape TP2 to be joined is the planned rear carrier tape TP2.

  If it is not the planned rear carrier tape TP2 (No in ST3), the splicing device 40 stops the splicing operation without attaching the splicing tape TS (ST4). That is, when it is determined by the splicing determination unit 94 (determination unit) that the component information recognized by the barcode reader T (recognition unit) does not match the component information acquired by the splicing acquisition unit 93 (acquisition unit) (in ST3) No), the attaching part 50 does not attach the splicing tape TS.

  That is, in the component information determination step (ST3) (determination step), the component information recognized in the splicing recognition step (ST1) (recognition step) and the component information acquired in the splicing acquisition step (ST2) (acquisition step). When they do not match (No), the splicing tape TS is not attached in the attaching step (ST6) described later. Or you may make it not perform the alignment process (ST5) mentioned later. Before the splicing recognition step (ST1) is executed, the operator may insert the front carrier tape TP1 and the rear carrier tape TP2 into the splicing device 40. In this case, the component information determination step (ST3) At least the sticking step (ST6) is not executed until a match (Yes) is confirmed.

  In FIG. 7, in the case of the planned rear carrier tape TP2, that is, in the component information determination step (ST3) (determination step), the component information recognized in the splicing recognition step (ST1) (recognition step) and the splicing acquisition step (ST2) When it is determined that the component information acquired in (acquiring step) matches (Yes), the splicing operation is executed in the splicing device 40. When the front carrier tape TP1 and the rear carrier tape TP2 are not inserted into the splicing device 40, the operator inserts from the front tape insertion port 41a and the rear tape insertion port 41b, respectively.

  In the splicing device 40, the inserted front carrier tape TP1 and rear carrier tape TP2 are cut at a cutting point B and a cutting point C, respectively. Next, the splicing control unit 91 controls the alignment unit 49 to perform alignment for abutting the rear end portion (cutting portion B) of the front carrier tape TP1 with the front end portion (cutting portion C) of the rear carrier tape TP2. (ST5: Positioning step). As shown in FIG. 8A, toward the alignment pin 47, the front carrier tape TP1 is conveyed upstream (arrow g), and the rear carrier tape TP2 is conveyed downstream (arrow h) for cutting. The location B and the cut location C are abutted.

  In FIG. 7, the splicing control unit 91 then controls the applying unit 50 to apply the splicing tape TS so that the rear end of the front carrier tape TP1 and the front end of the rear carrier tape TP2 are joined together (ST6: Pasting step). As shown in FIG. 8B, after the positioning pin 47 is retracted downward, the attaching unit 50 attaches the splicing tape TS.

  In FIG. 7, the identification number determination unit 54 then determines an identification number based on the component information of the rear carrier tape TP2 (ST7: determination step), and converts the identification number into a binary number (ST8: conversion step). . Next, the splicing control unit 91 controls the hole forming unit 51 to open the identification hole H corresponding to the identification number assigned to the rear carrier tape TP2 in the splicing tape TS (ST9: applying step). That is, the identification number which linked | related the component information recognized in the splicing recognition process (ST1) (recognition process) and the component information acquired in the splicing acquisition process (ST2) (acquisition process) to the affixed splicing tape TS. Is granted.

  As shown in FIG. 8C, identification holes H (here, four) are formed in the splicing tape TS. That is, in the applying step (ST9), the splicing tape TS is placed at a predetermined tape feed hole 13b position among the tape feed holes 13b covered with the splicing tape TS based on the binary number converted in the conversion step (ST8). An identification hole H that penetrates and opens is opened. An operator takes out the front carrier tape TP1 and the rear carrier tape TP2 joined by splicing from the splicing device 40, and the splicing is completed.

  In the tape feeder 10, the tape feed hole 13b in which the identification hole H is opened is read as “1”, and the tape feed hole 13b in which the identification hole H is not opened is read as “0”. Of the tape feed holes 13b covered with the splicing tape TS, the most downstream tape feed hole 13b sent to the joint detection sensor S is not opened with the identification hole H and is used for joint detection. The That is, when “0” appears after “1” continues for a predetermined number or more, it is determined that the splicing tape TS is affixed and the predetermined number (here 6 bits) of tape feed holes is determined. 13b is decoded as an identification number. In the example of FIG. 8C, the identification number assigned to the splicing tape TS is decoded as “110101”.

  As described above, the splicing device 40 according to the present embodiment has the barcode reader T (recognition unit) that recognizes the component information by reading the barcode L attached to the front tape reel R1 and the rear tape reel R2. A splicing acquisition unit 93 (acquisition unit) that acquires component information of the rear carrier tape TP2, a splicing determination unit 94 (determination unit) that determines whether the recognized component information matches the acquired component information, An alignment portion 49 that aligns the front carrier tape TP1 and the rear carrier tape TP2, an affixing portion 50 that affixes the splicing tape TS, and a perforated portion 51 (applying portion) that assigns an identification number are provided. Yes.

  When the splicing determination unit 94 determines that the component information recognized by the barcode reader T matches the component information acquired by the splicing acquisition unit 93, the affixing unit 50 applies the splicing tape TS, and the punching unit 51 An identification number is assigned to the splicing tape TS to which is attached. As a result, erroneous connection when the carrier tape TP is spliced together by the splicing tape TS can be reliably prevented.

  Next, a component supply method for supplying the component 5 in the component supply system (component mounting system 1) including the tape feeder 10 (component supply device) mounted on the component mounting apparatuses M1 to M3 in accordance with the flow of FIG. explain. In this component supply method, when it is confirmed that the joined carrier tape TP (rear carrier tape TP2) is the intended carrier tape TP (rear carrier tape TP2), the front carrier tape TP1 and the rear carrier tape are used. A transfer operation to the tape TP2 is performed.

  First, the feeder acquisition unit 82 receives the identification number assigned to the carrier tape TP (rear carrier tape TP2) spliced from the component mounting apparatuses M1 to M3 or the management computer 3 and the carrier tape TP (rear carrier tape). TP2) acquires component information of the component 5 stored (ST11: feeder acquisition step) (acquisition step). The acquired identification number and component information are stored in the feeder storage unit 81 as feeder component information 81a. When the identification number of the rear carrier tape TP2 joined at the time of splicing is stored in the tape feeder 10, the feeder acquisition step (ST11) at this point is omitted, and a feeder determination step (ST18) to be described later ) Before the feeder acquisition step (ST11).

  Next, the decoding unit 83 decodes the pattern of the identification hole H detected by the joint detection sensor S, and is applied to the splicing tape TS obtained by joining the carrier tape TP (the front carrier tape TP1 and the rear carrier tape TP2). The identification number is read (ST12: reading step). Next, the feeder determination unit 84 determines whether or not the identification number acquired in the feeder acquisition step (ST11) matches the identification number read in the reading step (ST12) (ST13: identification number determination step). (Determination step).

  When the acquired identification number and the read identification number match (Yes in ST13), the feeder control unit 21 (control unit) resumes the transfer of the carrier tape TP by the tape feeding mechanism 23 (transfer unit) ( ST14: Tape feeding restart process). When the transfer of the carrier tape TP is resumed, the transfer operation from the front carrier tape TP1 to the rear carrier tape TP2 is executed in the tape feeder 10.

  If it is determined that the acquired identification number and the read identification number do not match (No in ST13), the formation of the identification hole H in which the wrong rear carrier tape TP2 is joined is incomplete. There is a possibility that the detection sensor S has erroneously detected the identification hole H, or that the decoding unit 83 has erroneously decoded the identification number. Therefore, the feeder control unit 21 (control unit) stops the transfer of the carrier tape TP (front carrier tape TP1, rear carrier tape TP2) by the tape feeding mechanism 23 (transfer unit) (ST15).

  In FIG. 9, the operation / display panel 31 then notifies the abnormality of the joined rear carrier tape TP2 (ST16: abnormality notification step). Thereby, the operator can know that there is an abnormality in the joined rear carrier tape TP2 and the confirmation work is necessary. It should be noted that the presence of an abnormality may be notified to a rotating lamp, a buzzer, a liquid crystal display panel (not shown), a display unit 76 of the management computer 3 or the like included in the component mounting apparatuses M1 to M3.

  Next, the operator reads the barcode L attached to the rear tape reel R2 on which the rear carrier tape TP2 mounted on the tape feeder 10 is wound and stored by the barcode reader T, and obtains component information. recognize. That is, the component information attached to the rear tape reel R2 that winds and stores the rear carrier tape TP2 is recognized (ST17: component information recognition step) (recognition step). Next, the feeder determination unit 84 determines whether or not the component information recognized by the barcode reader T matches the component information acquired and stored in the feeder component information 81a (ST18: feeder determination step).

  If the component information recognized by the barcode reader T matches the acquired component information (information stored in the feeder component information 81a) (Yes in ST18), the mismatch in the identification number determination step (ST13) is continued. There is a cause in the detection sensor S or the decoding unit 83, and the joined rear carrier tape TP2 is determined to be correct. Thereby, it can be confirmed with certainty that the joined rear carrier tape TP2 is the planned rear carrier tape TP2. Next, the feeder control unit 21 (control unit) executes a tape feed resuming step (ST14) for resuming the transfer of the carrier tape TP by the tape feed mechanism 23 (transfer unit).

  In FIG. 9, when the component information recognized by the barcode reader T does not match the acquired component information (No in ST18), it is determined that the wrong rear carrier tape TP2 has been joined. Therefore, the feeder determination unit 84 notifies the operation / display panel 31 of the abnormality (ST19: mismatch notification process). Accordingly, it is possible to reliably prevent the wrong component 5 from being supplied from the rear carrier tape TP2 erroneously connected by the splicing tape TS.

  As described above, the component supply system of the present embodiment includes the tape feed mechanism 23 (transfer unit) that transfers the carrier tape TP, the feeder control unit 21 (control unit) that controls the transfer, and the component mounting apparatus M1. ~ Feeder acquisition unit 82 (acquisition unit) for acquiring the identification number and part information of the rear carrier tape TP2 spliced from M3 or the management computer 3, and a reading unit for reading the identification number assigned to the splicing tape TS (tape feed) Mechanism 23, joint detection sensor S, decoding unit 83), and feeder determination unit 84 (determination unit) that determines whether or not the acquired identification number matches the read identification number.

  When the component supply system determines that the identification number acquired by the feeder determination unit 84 does not match the read identification number, the feeder control unit 21 stops the transfer of the carrier tape TP. Accordingly, it is possible to reliably prevent the wrong component 5 from being supplied from the rear carrier tape TP2 erroneously connected by the splicing tape TS.

  In the above-described embodiment, the identification number is constituted by the identification hole H opened in the splicing tape TS in the splicing device 40, and is read by the joint detection sensor S provided in the tape feeder 10. It is not limited to. For example, the splicing device 40 includes a laser marking device and imprints a barcode representing an identification number on the surface of the splicing tape TS, and the tape feeder 10 includes a barcode reader and recognizes the barcode imprinted on the splicing tape TS. The identification number may be determined.

  The splicing device 40 includes an RFID writing unit and writes information on the rear carrier tape TP2 to the splicing tape TS incorporating the RFID, and the tape feeder 10 includes an RFID reading unit and reads information from the RFID of the splicing tape TS. The identification number may be determined. Further, the identification number matching determination in the identification number determination step (ST13) and the component information matching determination in the feeder determination step (ST18) are performed by the management verification provided by the mounting verification unit 62 provided in the component mounting apparatuses M1 to M3 or the management computer 3. The unit 73 may execute and transmit the result to the tape feeder 10.

  INDUSTRIAL APPLICABILITY The splicing device and the splicing method of the present invention have an effect of reliably preventing erroneous connection when splicing a carrier tape with a splicing tape, and are useful in the component mounting field where components are mounted on a substrate.

5 Parts 10 Tape feeder (Parts supply device)
13b Tape feed hole 40 Splicing device 49 Positioning part 50 Sticking part 51 Hole making part (applying part)
H Identification hole T Bar code reader (recognition part)
TP carrier tape TP1 Front carrier tape TP2 Rear carrier tape TS Splicing tape

Claims (7)

A splicing device that splices a carrier tape containing components with a splicing tape,
Part information attached to the front tape reel for winding and storing the front carrier tape mounted on the component supply device, and the rear tape for winding and storing the rear carrier tape newly mounted on the component supply device A recognition unit for recognizing part information attached to the reel;
An acquisition unit for acquiring component information of the rear carrier tape joined by the splicing;
A determination unit that determines whether or not the component information recognized by the recognition unit and the component information acquired by the acquisition unit match;
An alignment portion for aligning the rear end portion of the front carrier tape and the front end portion of the rear carrier tape;
An affixing portion for attaching the splicing tape so as to join the rear end portion of the front carrier tape and the front end portion of the rear carrier tape;
An attaching unit that assigns an identification number that associates the component information recognized by the recognition unit and the component information acquired by the acquisition unit to the splicing tape that has been attached;
When it is determined by the determination unit that the component information recognized by the recognition unit and the component information acquired by the acquisition unit match,
The affixing part affixes the splicing tape,
A splicing device that assigns the identification number to the splicing tape to which the attaching portion is attached.   The splicing device according to claim 1, wherein when the determination unit determines that the component information recognized by the recognition unit and the component information acquired by the acquisition unit do not match, the application unit does not apply the splicing tape. . The carrier tape is provided with tape feed holes at an equal pitch,
A conversion unit for converting the identification number into a binary number;
The adding unit is configured to identify the predetermined number of the tape feeding hole covered with the splicing tape based on the binary number converted by the conversion unit, and to open through the splicing tape. The splicing device according to claim 1 or 2, wherein a hole is formed.   The splicing device according to any one of claims 1 to 3, wherein the acquisition unit acquires component information stored in the component supply device in a wired manner. A splicing method for splicing a carrier tape containing components with a splicing tape,
Part information attached to the front tape reel for winding and storing the front carrier tape mounted on the component supply device, and the rear tape for winding and storing the rear carrier tape newly mounted on the component supply device A recognition process for recognizing component information attached to the reel;
An acquisition step of acquiring component information of the rear carrier tape joined by the splicing;
A determination step of determining whether or not the component information recognized in the recognition step and the component information acquired in the acquisition step match;
An alignment process for aligning the rear end of the front carrier tape and the front end of the rear carrier tape;
An attaching step of attaching the splicing tape so as to join the rear end portion of the front carrier tape and the front end portion of the rear carrier tape;
Including an attaching step of assigning an identification number associated with the component information recognized in the recognition step and the component information obtained in the obtaining step to the attached splicing tape,
In the determination step, when it is determined that the component information recognized in the recognition step matches the component information acquired in the acquisition step,
In the attaching step, the splicing tape is attached,
A splicing method in which, in the applying step, the identification number is assigned to the attached splicing tape.   The splicing method according to claim 5, wherein, in the determination step, the splicing tape is not attached in the attaching step when the component information recognized in the recognition step and the component information acquired in the acquisition step do not match. The carrier tape is provided with tape feed holes at an equal pitch,
A conversion step of converting the identification number into a binary number;
In the applying step, an identification of penetrating and opening the splicing tape at a predetermined tape feeding hole position among the tape feeding holes covered with the splicing tape based on the binary number converted in the converting step. The splicing method according to claim 5 or 6, wherein a hole is formed.

Images