JP5641888B2 - Component verification method and component mounting system - Google Patents

Description

  The present invention relates to a component verification method and a component mounting system for reels held in a feeder mounted in a slot of a component supply device of a component mounting machine.

  For example, Patent Document 1 describes the following component verification method (electronic component erroneous mounting prevention method). In this method, a feeder identification barcode (cartridge identification barcode) and a reel identification barcode (component identification barcode) are attached to each feeder (cartridge) and each reel (component reel). The slot identification bar code (mounter address identification bar code) is attached in correspondence with the position information (mounter address number) of the slot (cartridge set position) in which each feeder is installed.

  Furthermore, each bar code for identification of each feeder, each reel, and each slot is stored in advance as association information in a storage unit of a control device (computer). Then, after removing the corresponding feeder from the slot and exchanging the reel when the parts are out of stock, each identification barcode is sequentially read by the barcode reader connected to the control device and stored in the storage unit. The information is collated, and a match / mismatch is displayed on the display unit of the control device. If they do not match, it is determined that a tape containing an incorrect part is connected.

Japanese Patent Laid-Open No. 2000-68690 (paragraph numbers 0019, 0026, 0027, FIG. 1)

  In the above-described component verification method, a plurality of identification barcodes such as a feeder identification barcode, a reel identification barcode, and a slot identification barcode need to be sequentially read by a barcode reader. It is very time consuming if you need to perform part verification for all reels used in Further, since it is necessary to affix the identification barcode on the feeder, reel and slot, the cost is high.

  The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a component verification method and a component mounting system that enable efficient and low-cost component verification.

In order to solve the above-described problem, a structural feature of the invention according to claim 1 is that a component supply device provided in a component mounter and provided with a plurality of slots in series is detachable from the plurality of slots. A method for collating parts of a reel on which a tape that contains a large number of parts and is removably held by a feeder to be mounted is wound, wherein the slot on which the feeder holding the reels is mounted and parts should be collated A slot specifying step of sequentially specifying each slot from the slot on the one end side to the slot on the other end side of the plurality of slots of the component supply device, and a slot position indicating the position of the specified slot An arrangement part type information specifying process for specifying arrangement part type information indicating a part type of the part to be arranged in the specified slot based on the information A slot position information teaching step for teaching the slot position information, and a reel identification attached to the reel held by the feeder mounted in the specified slot based on the taught slot position information A reel identification information reading step for reading information, and a reading component type information specifying step for specifying reading component type information indicating a component type of the component arranged in the specified slot based on the read reel identification information And a component collation step for collating the read component type information and the arrangement component type information.

The structural feature of the invention according to claim 2 is that in the component supply apparatus provided in each of the component mounting machines arranged in series in the substrate transport direction and provided with a plurality of slots in series, the plurality of slots A method for collating parts of a reel on which a tape that is detachably held on a feeder that is detachably mounted and wound with a tape that contains a large number of parts is wound. When specifying the slot to be performed, the plurality of the component supply devices of each component mounter, with respect to the component mounter disposed on the other end side from the component mounter disposed on the one end side of the component mounters. Slot specifying step of sequentially specifying each slot from the slot on the one end side to the slot on the other end side, and slot position information indicating the position of the specified slot An arrangement component type information specifying step for specifying arrangement component type information indicating a component type of the component to be arranged in the specified slot, a slot position information teaching step for teaching the slot position information, Based on the taught slot position information, a reel identification information reading step of reading reel identification information attached to the reel held by the feeder mounted in the specified slot, and the read reel identification information The reading component type information specifying step for specifying the reading component type information indicating the component type of the component arranged in the specified slot is compared with the reading component type information and the arrangement component type information. And a component verification process .

  The structural feature of the invention according to claim 3 is that, in the component verification method according to claim 1 or 2, the component verification step is to notify an error when the result of the component verification is an error. .

  The structural feature of the invention according to claim 4 is the component verification method according to any one of claims 1 to 3, wherein the component verification step corresponds to whether the result of the component verification is correct or incorrect. It is to turn on a display of a different color on the lighting device provided in the slot.

The structural feature of the invention according to claim 5 is that a plurality of slots provided in series in a substrate transport device for transporting a substrate in the substrate transport direction and a component supply device disposed adjacent to the substrate transport device. The components housed in a tape wound around a reel that is detachably held by a detachably mounted feeder are sampled by a component mounting head, and are transported to the component mounting position by the substrate transport device. A component mounting line having at least one component mounting device to be mounted, a control device having a communication function for controlling the component mounting line, and a reading unit for reading at least the identification information of the reel, and capable of communicating with the control device the component mounting system comprising a a terminal, wherein the control device, the Ro should perform the part matching the feeder holding the reel is seated When identifying the door, said plurality of slot identifying means for sequentially identifying each slot for the other end of the slot from one end of the slot of the slots of the component supplying device, the slot indicating the position of the identified slot Based on the position information, the arrangement part type information specifying means for specifying the arrangement part type information indicating the part type of the part to be arranged in the specified slot, and the slot position information on the display unit of the terminal Slot position information display means for displaying, and the reel read by the reading unit of the terminal based on the displayed slot position information and attached to the reel held by the feeder mounted in the specified slot Based on the reel identification information input means for inputting the reel identification information from the terminal and the transmitted reel identification information, A reading component type information specifying unit for specifying reading component type information indicating a component type of the component arranged in a specified slot; a component checking unit for comparing the reading component type information with the arrangement component type information; It is to have.

  According to a sixth aspect of the present invention, in the component verification system according to the fifth aspect, the terminal has a display unit, and at least the name of the control device and the component are displayed on the upper part of the screen of the display unit. Displays the name of the mounting line, displays at least the position information of the slot and the component type information of the component in the center of the screen, and displays the component type information of the component at the bottom of the screen when the result of the component verification is correct When the verification of all the parts is completed, the verification completion is displayed on the current screen, and when the result of the component verification is incorrect, the current screen is switched to display an error on the entire screen. is there.

  A structural feature of the invention according to claim 7 is the component mounting system according to claim 5 or 6, wherein the terminal is a portable information terminal having a wireless communication function.

According to the first aspect of the present invention, the slots are sequentially specified from one end side to the other end side of the plurality of slots. Therefore, the current production schedule is continued, but when the worker changes, when the new production schedule is started, when the current production schedule is completed, etc. It is possible to improve the efficiency when collating the reels together and verifying the parts. In particular, by performing this part collation when the worker changes, it is possible to find out that the previous worker has forgotten the splicing verification, etc., and to clarify the responsibility. Then, the component arrangement part type information of the part is specified based on the specified slot position information, the reel identification information in the slot is read based on the taught slot position information, and the read part type of the part is determined based on the reel identification information. Information is specified, and the read component type information and the arrangement component type information are collated. Therefore, when performing component verification, it is not necessary to read information other than the reel identification information given to the reel, and component verification can be performed efficiently and at low cost.

According to the second aspect of the present invention, the slots are sequentially identified from one end side to the other end side of the plurality of slots from one end side to the other end side of the plurality of component mounting machines arranged in series. . Therefore, the current production schedule is continued, but when the worker changes, when the new production schedule is started, when the current production schedule is completed, etc. It is possible to improve the efficiency when collating the reels together and verifying the parts. In particular, by performing this part collation when the worker changes, it is possible to find out that the previous worker has forgotten the splicing verification, etc., and to clarify the responsibility. Then, the component arrangement part type information of the part is specified based on the specified slot position information, the reel identification information in the slot is read based on the taught slot position information, and the read part type of the part is determined based on the reel identification information. Information is specified, and the read component type information and the arrangement component type information are collated. Therefore, when performing component verification, it is not necessary to read information other than the reel identification information given to the reel, and component verification can be performed efficiently and at low cost.

  According to the third aspect of the present invention, when the result of component verification is an error, an error is notified. Therefore, since the operator can surely recognize that the wrong reel is held in the feeder, the wrong reel is replaced with the correct reel, and if necessary, the tape wound around the reel is removed. Splicing work can be performed, and erroneous mounting of components can be prevented.

  According to the invention which concerns on Claim 4, according to the correctness of the result of component collation, the display of a different color is lighted to the lighting device provided in the applicable slot. Therefore, the operator can surely recognize the feeder holding the wrong reel, replace the wrong reel with the correct reel, and perform the work of splicing the tape wound around the reel if necessary. Therefore, it is possible to prevent erroneous mounting of components.

According to the invention of claim 5, the slot specifying means sequentially specifies each slot from one end side to the other end side of the plurality of slots. Therefore, the current production schedule is continued, but when the worker changes, when the new production schedule is started, when the current production schedule is completed, etc. It is possible to construct a component mounting system that can improve the efficiency when collating components together. In particular, by performing this part collation when the worker changes, it is possible to find a previous worker's forgetting splicing verification and the like, and to build a component mounting system that can clarify the location of responsibility. Then, the arrangement part type information specifying unit specifies the arrangement part type information of the part based on the specified slot position information, and the reel identification information input unit reads the reel identification in the slot read based on the specified slot position information. The information is input, the reading component type information specifying means specifies the reading component type information of the component based on the reel identification information, and the component checking means checks the reading component type information and the arrangement component type information. Therefore, when performing component verification, it is not necessary to read information other than the reel identification information given to the reel, and a component mounting system capable of efficient and low-cost component verification can be constructed.

  According to the sixth aspect of the present invention, when the result of the component collation is correct, the arrangement part type information of the part is displayed at the lower part of the screen on the display unit of the terminal. It is possible to reliably recognize that the reading operation may be continued. Further, when all the parts have been collated, the completion of collation is displayed on the current screen, so that the operator can recognize that the parts collation in the component mounting line has been reliably performed. Further, when the result of component verification is incorrect, the current screen is switched and an error is displayed on the entire screen, so that the operator can surely recognize that the wrong reel is held in the feeder.

  According to the invention of claim 7, since the terminal is a portable information terminal having a wireless communication function, the range of action of the worker is not restricted, and parts verification is ensured even at a remote location. Can be done.

1 is a perspective view showing an embodiment of a component mounting system according to the present invention. It is the schematic which shows the feeder and its peripheral part of the component mounting system of FIG. It is a block block diagram which shows the principal part of the control apparatus of the component mounting system of FIG. It is a top view which shows the terminal of the component mounting system of FIG. It is a flowchart for demonstrating one Embodiment of the components collation method which concerns on this invention. (A), (B) is a table configuration example showing the correspondence between the slot position and the component type used in the component verification method according to the present invention, and a table configuration example showing the correspondence between the reel number and the component type. FIG. (A), (B), (C), (D), (E), (F) are examples of display items on the display unit of the terminal shown in FIG. It is a figure which shows the example of a display when information is transmitted, the example of a display when a collation result is an error, the example of a display when a collation result is correct, and the example of a display when collation is completed. It is a figure for demonstrating the example of the erroneous mounting of the component which can be prevented with the 2nd component collation method which concerns on this invention.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. In the following description, the substrate transport direction is referred to as the X-axis direction, the direction perpendicular to the X-axis direction in the horizontal plane is referred to as the Y-axis direction, and the direction perpendicular to the X-axis direction and the Y-axis direction is referred to as the Z-axis. It is called a direction. As shown in FIG. 1, the component mounting system includes a plurality of (in FIG. 1, two) component mounters 1 in the X-axis direction in series. A component mounting line arranged and configured, a control device 60 (see FIG. 3) for controlling the component mounting line, and a terminal 80 (see FIG. 4) capable of communicating with the control device 60 are configured. Note that the present invention can also be applied to a component mounting system including one component mounter 1.

  A plurality of slots 22 (see FIG. 2) in which the feeder 21 is detachably mounted are provided in the component supply device 20 in series in the X-axis direction. As shown in FIG. 2, a reel 23 around which a tape 24 that accommodates a large number of parts P in a row at intervals is detachably held in the feeder 21. Inside the feeder 21, a sprocket 26 driven by a motor 25 as a drive source for pitch-feeding the tape 24 is rotatably supported, and a feed hole formed in the tape 24 is engaged with the sprocket 26. . Further, the feeder 21 is provided with a splicing detection device 27 that detects a splicing portion (connecting portion) of the tape 24. The feeder 21 includes a control unit 28 for controlling the motor 25.

  The feeder 21 is slidably engaged with the slot 22, and a communication that can be connected to a communication connector 29 provided at the slot 22 and connected to the control device 60 is provided at the distal end of the feeder 21 on the insertion side. A connector 30 is provided. The communication connector 30 of the feeder 21 is connected to the communication connector 29 of the slot 22 when the feeder 21 is slid and attached to the slot 22, and power is supplied to the feeder 21 from the slot 22 side. Necessary control signals can be transmitted to and received from the control device 60.

  The slot 22 is provided with a lighting device 31 that lights a display of a different color depending on whether the result of component verification is correct or incorrect. The lighting device 31 includes, for example, a light emitter such as an LED or a lamp, and emits light in blue when the component verification result is correct, for example, in red when there is a mistake, based on the component verification result signal from the control device 60. It has become. A barcode 32 representing the identification information of the reel 23 is affixed to the reel 23. The barcode 32 is read by the terminal 80, whereby the identification information of the reel 23 is acquired, transmitted to the control device 60 described later, and stored in the RAM 63.

  In this component supply device 20, when the reel 23 is held by the feeder 21 and the feeder 21 is slidably engaged with the slot 22, the tape 24 wound around the reel 23 is sent out one pitch at a time by the rotation of the sprocket 26. The components P accommodated in the tape 24 are sequentially supplied to the component supply position 21 a provided at the tip of the feeder 21. The component P supplied to the component supply position 21a is sucked by a suction nozzle 47 of a component mounting device 40 described later and mounted on the substrate S positioned at the component mounting position by the substrate transport device 10. When the remaining amount of the component P accommodated in the reel 23 decreases, the component P is replenished by splicing.

  As shown in FIG. 1, the board | substrate conveyance apparatus 10 consists of a thing of the double conveyor type which arranged the two conveyance apparatuses 11 and 12 in parallel as an example. The conveying devices 11 and 12 are respectively guided in parallel by a pair of guide rails 13a and 13b arranged parallel to each other on the base 41 of the component mounting device 40 so as to face each other in parallel. A pair of unillustrated conveyor belts that support and transport the substrate S are arranged in parallel so as to face each other. Further, the substrate transport apparatus 10 is provided with an unillustrated clamp device that lifts and clamps the substrate S transported to a predetermined position.

  In this board conveying device 10, the board S on which the component P is mounted is conveyed by the conveyor belt to the component mounting position in the X-axis direction while being guided by the guide rails 13a and 13b. The substrate S transported to the component mounting position is positioned and clamped at the component mounting position by a clamp device.

  As shown in FIG. 1, the component mounting device 40 is composed of an XY robot. The XY robot is mounted on a base 41 and is disposed above the substrate transfer device 10 and the component supply device 20, and guide rails 42. Is provided with a Y-axis slide 43 that can move in the Y-axis direction. The Y-axis slide 43 is moved in the Y-axis direction by a ball screw mechanism having a ball screw connected to the output shaft of the Y-axis servo motor 44. An X-axis slide 45 is guided by the Y-axis slide 43 so as to be movable in the X-axis direction orthogonal to the Y-axis direction. An X-axis servo motor 46 is installed on the Y-axis slide 43, and the X-axis slide 45 is moved in the X-axis direction by a ball screw mechanism (not shown) connected to the output shaft of the X-axis servo motor 46. On the X-axis slide 45, a component mounting head 48 holding a suction nozzle 47 that can move in the Z-axis direction for sucking the component P is provided. A substrate recognition camera 49 is provided on the X-axis slide 45. A component recognition camera 50 is fixed on the base 41.

  In the component mounting apparatus 40, a substrate mark provided on the substrate S positioned at the component mounting position is detected by the substrate recognition camera 49. Then, the position of the component mounting head 48 is corrected in the XY directions based on the position of the board mark. Further, the part P sucked by the suction nozzle 47 is picked up by the part recognition camera 50 while moving from the part supply position 21a of the part supply apparatus 20 to a predetermined position on the substrate S, and the part P with respect to the center of the suction nozzle 47 is captured. P misalignment or the like is detected. Based on this misalignment or the like, the movement amount of the component mounting head 48 in the XY direction or the like is corrected. As a result, the component P is accurately mounted at a predetermined coordinate position on the substrate S.

  As shown in FIG. 3, the control device 60 includes a CPU 61, a ROM 62, a RAM 63 and a bus 64 for connecting them, and an input / output interface 65 is connected to the bus 64. The control device 60 is a device for controlling the component mounting line, but only the control system of the component supply device 20 is shown in FIG. That is, the input / output interface 65 includes a component verification unit 66 that executes a component verification program by transmitting and receiving signals to and from the terminal 80, a lighting control unit 67 that controls lighting and extinction of the lighting device 31, and a feeder that drives the feeder 21. The drive unit 68 and the like are connected to each other.

  The control device 60 is further connected with an input / output device 69 having a keyboard for inputting information and a display device for displaying information. In the ROM 62 of the control device 60, a part collation program, a table Ta (see FIG. 6A) showing the correspondence between the position information of the slot 22 and the part type information of the parts to be placed in the slot 22, and reels A table Tb (see FIG. 6B) representing the correspondence between the identification information 23 and the component type information of the components accommodated in the reel 23 is stored. In the RAM 63 of the control device 60, identification information of the reel 23 and the like are stored.

  As shown in FIG. 4, the terminal 80 is a personal digital assistant (PDA) or the like having a barcode reading function, and includes a display unit 81 made of liquid crystal or the like, and touch keys that can be displayed on the display unit 81. And the like (shown in FIG. 4) and an optical reading unit 83. The terminal 80 is configured to be able to communicate with the control device 60 wirelessly or by wire. When the terminal 80 is a portable information terminal having a wireless communication function, the operator's action range is not restricted, and parts verification can be performed reliably even at a remote location.

  As shown in FIG. 7A, the display unit 81 displays the name of the control device 60 in the display area 84 at the top of the screen, the name of the component mounting line in the display area 85, and the display area 86 in the center of the screen. The placement information of the component mounter 1, the location information of the slot 22 in the display area 87, the placement component type information of the component P in the display area 88, and the component when the result of the component verification is correct in the display area 89 at the bottom of the screen. P arrangement component type information is displayed. Further, as shown in FIG. 7 (F), when the collation of all the parts P is completed, a collation completion message is displayed on the display area 90 superimposed on the current screen, as shown in FIG. 7 (F). As shown in FIG. 8, when the result of component verification is incorrect, the current screen is switched and an error message is displayed in the display area 91 of the entire screen.

  Next, the parts matching method will be described with reference to the flowchart shown in FIG. 5, the table configuration example shown in FIG. 6, and the display example of the display unit 81 of the terminal 80 shown in FIG. The control device 60 activates the component verification program transmitted from the terminal device 80 by the operator, starts the program, and implements the name of the control device 60 transmitted from the terminal device 80 and component verification. Necessary information such as the name of the line is input (step 1 in FIG. 5). The name of the control device 60 is input by operating the input unit 82 of the operator's terminal 80, and the name of the component mounting line is pasted at the head of the line, for example, by operating the reading unit 83 of the operator's terminal 80. It is input by reading the current bar code. As shown in FIG. 7B, the name of the control device 60 and the name of the component mounting line are respectively displayed in the display areas 84 and 85 at the upper part of the display unit 81 of the terminal 80. Therefore, the contents can be confirmed and erroneous input can be prevented.

  Here, the control device 60 is arranged on the other end side from the component mounting machine 1 arranged on one end side among the plurality of component mounting machines 1 arranged in series constituting the component mounting line for performing component verification. The component mounters 1 are sequentially identified, and among the plurality of slots 22 of each component mounter 1, the slots 22 in which the feeders 21 holding the reels 23 are installed from the slots 22 on one end side to the slots 22 on the other end side. It is set to specify sequentially. Therefore, first, the control device 60 sets the component mounter 1 arranged on one end side of the plurality of component mounters 1 arranged in series that constitute the component mount line for performing component verification, for example, most upstream of the board conveyance. The component mounting machine 1 located on the side is specified, and the slot 22 on one end side among the plurality of slots 22 in which the feeders 21 holding the reels 23 of the component mounting machine 1 are mounted, for example, the most upstream side of the board conveyance The slot 22 to be identified is identified (step 2 in FIG. 5 (corresponding to “slot identifying process” and “slot identifying means” of the present invention)).

  Then, the position information of the specified slot 22 and the arrangement part type information of the parts to be arranged in the slot 22 are specified based on the table Ta indicating the correspondence between the slot position information and the part type information in FIG. (Step 3 in FIG. 5 (corresponding to “arranged part type information specifying step” and “arranged part type information specifying unit” of the present invention)). For example, when the position of the identified slot 22 is “1”, the component type is identified as “AAA-1”. At this time, in the table Ta, only part type information corresponding to the position information of the slot 22 in which the feeder 21 holding the reel 23 containing the parts used in the current production schedule is mounted is written, and the next production schedule and the like. Since no part type information corresponding to the position information of the slot 22 in which the feeder 21 holding the reel 23 containing the parts used in the above is mounted is written, the slot 22 is passed. Yes.

  The control device 60 transmits the position information of the identified slot 22 and the component arrangement part type information of the parts to the terminal 80 and displays them on the display unit 81 of the terminal 80 (step 4 in FIG. Corresponding to “information teaching step” and “slot position information display means”)). As shown in FIG. 7C, the position information of the slot 22 and the arrangement part type information of the parts are respectively displayed in the display areas 87 and 88 in the center of the screen of the display unit 81 of the terminal 80 and are displayed to the operator. Informed. Note that the position information of the slot 22 is not limited to being displayed on the display unit 81 of the terminal 80 as long as it can be taught to the operator. The position of 22 may be taught to the operator. Here, according to the position information of the slot 22 displayed on the display unit 81 of the terminal device 80, the worker holds the reel 23 held by the feeder 21 installed in the slot 22 arranged at a position corresponding to the position information. The identification information of the barcode 32 affixed to is read by the reading unit 83 of the terminal 80 (step 5 in FIG. 5 (corresponding to “reel identification information reading step” of the present invention)).

  The control device 60 inputs the read identification information of the reel 23 transmitted from the terminal 80 (corresponding to the “reel identification information input means” of the present invention), and the reel identification information and part shown in FIG. Based on the table Tb representing the correspondence relationship with the product type information, the read part type information of the parts arranged in the slot 22 arranged at the position corresponding to the position information of the slot 22 displayed on the display unit 81 of the terminal 80 is obtained. (Step 6 in FIG. 5 (corresponding to “reading component type information specifying step” and “reading component type information specifying means” of the present invention)). For example, when the read identification number of the reel 23 is “a-1”, the component type is read as “AAA-1”. Then, the read part type information and the arrangement part type information are collated (step 7 in FIG. 5 (corresponding to “part collation process” and “part collation means” of the present invention)), It is determined whether or not (step 8 in FIG. 5).

  When the control device 60 determines that the read component type information and the arrangement component type information do not match, the control device 60 transmits an error signal to the terminal device 80 to display an error message on the display unit 81 of the terminal device 80 ( FIG. 5 Step 9). As shown in FIG. 7D, this error message is displayed on the display area 91 of the full screen after the current screen of the display unit 81 of the terminal 80 is switched to notify the operator. Thus, the operator can surely recognize that the wrong reel 23 is held by the feeder 21, so that the wrong reel 23 is replaced with the correct reel 23, and if necessary, the reel 23 is wound around the reel 23. The operation of splicing the tape 24 being rotated can be performed, and the occurrence of erroneous component mounting can be prevented.

  Further, at this time, the lighting device 31 is turned on to emit red light to notify the operator. As a result, the operator reliably recognizes the feeder 21 holding the wrong reel 23, replaces the wrong reel 23 with the correct reel, and if necessary, splices the tape wound around the correct reel. Work can be performed, and erroneous mounting of components can be prevented. Then, the identification information of the reel 23 exchanged by returning to step 5 is read by the reading unit 83 of the terminal 80, and the processes after step 6 described above are executed.

  On the other hand, when the control device 60 determines in step 8 that the read component type information and the arrangement component type information match, the control device 60 transmits the matched component type information to the terminal 80 to It is displayed on the display unit 81 (step 10 in FIG. 5). As shown in FIG. 7E, the component type information is displayed in the display area 89 at the bottom of the screen of the display unit 81 of the terminal 80 and is notified to the operator. Thereby, the worker can surely recognize that the reading operation of the identification information on the reel 23 may be continued. Further, at this time, the lighting device 31 is turned on to emit blue light to notify the operator. As a result, the operator can reliably recognize the feeder 21 holding the correct reel 23. Then, it is determined whether or not the component for which component verification has been completed is the last component verification target component in the component mounting line (step 11 in FIG. 5).

  Here, the last component verification target component in the component mounting line is a component mounter 1 disposed on the other end of the plurality of component mounters 1 disposed in series constituting the component mounting line. That is, in this example, the component mounting machine 1 is located on the most downstream side of the board conveyance, and the slot 22 on the other end side among the plurality of slots 22 in which the feeders 21 holding the reels 23 of the component mounting machine 1 are mounted. That is, in this example, it refers to the components of the reel 23 held by the feeder 21 that is mounted in the slot 22 located on the most downstream side of the substrate conveyance.

  When the control device 60 determines that the component for which the component verification has been completed is not the last component verification target component, the control device 60 returns to step 2 and the next reel 23 located downstream of the substrate conveyance from the reel 23 for which the component verification has been completed. The slot 22 in which the feeder 21 holding is attached is selected, and the processes after step 3 described above are executed. On the other hand, when the control device 60 determines in step 11 that the component verification has been completed is the last component verification target component, the control device 60 transmits a verification completion signal to the terminal 80 and displays the display unit of the terminal 80. A collation completion message is displayed in 81 (step 12 in FIG. 5), and all the processes are terminated. As shown in FIG. 7 (F), this collation completion message is displayed on the display area 90 overlaid on the current screen of the display unit 81 of the terminal 80 to notify the operator. Thereby, the operator can recognize that the component collation in the component mounting line has been reliably performed.

  As described above, according to the component mounting method and the component mounting system of this embodiment, the component placement component type information is specified based on the specified slot position information, and the slot is determined based on the taught slot position information. 23, the reel identification information at 23 is read, the read component type information of the component is read based on the reel identification information, and the read component type information and the arrangement component type information are collated. It is not necessary to read information other than the barcode identification information affixed to 23, and parts verification can be performed efficiently and at low cost.

  In addition, the position information of each slot 22 is displayed from the upstream side to the downstream side of the plurality of slots 22 from the upstream side to the downstream side of the plurality of slots 22 in series. The current production schedule is continued, but when the worker changes, when the new production schedule is started, when the current production schedule is completed, etc., each slot 22 of the component mounting machine is displayed. The efficiency at the time of collating the components of the reels 23 held by the feeder 21 attached to the can 21 can be improved. Note that the position information of each slot is displayed on the display unit 81 of the terminal 80 from the board transfer downstream side to the upstream side of the plurality of slots 22 from the board transfer downstream side to the upstream side of the plurality of component mounting machines 1 arranged in series. The position information of the plurality of component mounters 1 and the plurality of slots 22 may be sequentially displayed on the display unit 81 of the terminal 80 in an arbitrary order.

  In addition, the part collating method according to the present embodiment is particularly effective in the case described below by being executed when an operator is changed although the current production schedule is continued. In the component mounting machine 1, when the remaining amount of the component P accommodated in the reel 23 attached to the feeder 21 decreases, the remaining amount of the tape 24 wound on another reel 23 accommodating the same type of component P is reduced. Splicing to connect to the reduced tape 24 is performed, and the part P is replenished by the splicing so that the supply operation of the part P can be continued. At the time of splicing, so-called splicing verification is performed to check whether or not the tape 24 that normally contains the correct component P is connected to prevent erroneous mounting of the component.

  However, for example, it is wound around the reel 23 with the reel number “a-1” containing the component P of the component type “AAA-1” attached to the feeder 21 mounted in the slot 22 at the slot position “1”. If the tape 24 wound around the reel 23 with the reel number “b-1” containing the component P of the component type “BBB-1” is accidentally spliced on the tape 24 and the splicing verification is forgotten The following problems occur:

  That is, when the current production schedule is completed, the tape 24 containing the part P of the part type “AAA-1” remains at the end of the tape 24 containing the part P of the part type “BBB-1”. When the worker changes and continues the current production schedule, the component P of the component type “AAA-1” is to be mounted because the component P of the component type “BBB-1” is to be mounted. Implementation occurs. However, by executing the part checking method of the present embodiment when the operator changes, the part 24 of the part type “BBB-1” is accommodated in the tape 24 that accommodates the part P of the part type “AAA-1”. Since the splicing of the tape 24 can be detected, the erroneous mounting of the component P as described above can be prevented. In addition, it is possible to find out that the previous worker has forgotten splicing verification, and to clarify the responsibility.

  Since the component matching method of the present embodiment is executed for all slots 22, it is time loss to execute at the time of splicing in a small number of slots. Therefore, a second component matching method effective at the time of splicing will be described. After the splicing is completed, a predetermined time is required from when the splicing portion (connecting portion) of the tape 24 is detected by the splicing detection device 27 to when the component P is switched after reaching the component supply position 21a. Therefore, when the splicing part of the tape 24 is detected by the splicing detection device 27, the identification information of the reel 23 currently held in the feeder 21 is displayed on the display part 81 of the terminal 80.

  When the splicing unit reaches the component supply position 21 a without reading the identification information of the reel 23 currently held in the feeder 21, or the identification information of the reel 23 currently held in the feeder 21 is read. However, if the part type information is different before and after the splicing, an error signal is transmitted to the terminal 80, an error message is displayed on the display unit 81 of the terminal 80, and the lighting device 31 is turned on to emit red light. Further, the motor 25 is stopped to stop the rotation of the sprocket 26 and the feeding of the tape 24 is stopped. Thereby, erroneous mounting of the parts P of the three cases described below can be prevented.

  As a first case, for example, as shown in FIG. 8, the feeder 21a mounted in the slot 22a at the slot position “5” has a reel number “a” containing the component P of the component type “AAA-1”. −5 ”reel 23a is attached, and the component P of the component type“ AAA-2 (the same component type as AAA-1) ”is attached to the feeder 21b attached to the slot 22b of the slot position“ 6 ”next to it. Suppose that a reel 23b having a reel number “a-6” is attached. Then, after reading the identification information of the reel 23b with the reel number “a-6”, the identification information of the reel 23c with the reel number “a-51” containing the component P of the unmounted component type “AAA-1” is stored. Read.

  However, the tape 24c wound around the reel 23c with the reel number "a-51" is spliced to the tape 24a wound around the reel 23a with the reel number "a-5", and the reel number "a-6" The tape 24b wound around the reel 23b has the tape 24d wound around the reel 23d of the reel number “b-5” containing the component P of the component type “BBB-1” different from the component types AAA-1 and AAA-2. If you splicing by mistake and forget about splicing verification, the following problems occur.

  That is, when the control device 60 reads the identification information of the reel 23c having the reel number “a-51”, the control device 60 recognizes that the correct reel 23c is mounted on the feeder 21b of the slot 22b at the slot position “6”. . However, in reality, the tape 24b wound around the reel 23b of the reel number “a-6” of the feeder 21b of the slot 22b of the slot position “6” accommodates the component P of the component type “BBB-1”. Since the tape 24d wound around the reel 23d of the reel number “b-5” is spliced, if the current production schedule is continued, the intention to mount the part P of the part type “AAA-2” is the part type “BBB- The component P of 1 ″ is mounted, and the component P is erroneously mounted.

  However, by executing the second component verification method described above, the component type “BBB-1” is applied to the tape 24b of the reel 23b attached to the feeder 21b mounted in the slot 22b of the slot position “6”. Since it is possible to detect that the tape 24d of the reel 23d with the reel number “b-5” containing the part P is spliced, the erroneous mounting of the part P as described above can be prevented. Further, as another method for preventing such erroneous mounting of the component P, the reel 23 around which the tape 24 storing the component P of the same component type is wound around the feeder 21 mounted in the adjacent slot 22 is used. Do not install. This method can also prevent erroneous mounting of the component P as described above.

  Further, as the second case, for example, splicing is performed on the tape 24 wound around the reel 23 with the reel number “a-1” containing the component P of the component type “AAA-1” attached to the feeder 21. The identification information of the reel 23 with the reel number “a-2” containing the part P of the scheduled part type “AAA-2 (the same part type as AAA-1)” is read. However, if the tape 24 wound around the reel 23 with the reel number “b-1” containing the component P of the component type “BBB-1” is actually spliced, the component P is erroneously mounted. However, since it is possible to detect that the tape 24 of the reel 23 with the reel number “b-1” is spliced by executing the above-described second component verification method, the component P as described above is used. Can be avoided.

  Further, as the third case, for example, splicing is performed on the tape 24 wound around the reel 23 having the reel number “a-1” containing the component P of the component type “AAA-1” attached to the feeder 21. The identification information of the reel 23 with the reel number “a-2” containing the part P of the scheduled part type “AAA-2 (the same part type as AAA-1)” is read, but splicing is forgotten. Actually, if the tape 24 wound around the reel 23 with the reel number “b-1” containing the component P of the component type “BBB-1” is accidentally spliced and the splicing verification is forgotten, the component P However, since it is possible to detect that the tape 24 of the reel 23 with the reel number “b-1” is spliced by executing the second component verification method described above, as described above. Incorrect mounting of the component P can be prevented.

  DESCRIPTION OF SYMBOLS 1 ... Component mounting machine, 10 ... Board conveying apparatus, 20 ... Component supply apparatus, 21 ... Feeder, 22 ... Slot, 23 ... Reel, 24 ... Tape, 27 ..Splicing inspection device, 31 ... lighting device, 32 ... bar code, 40 ... component supply device, 60 ... control device, 66 ... component verification unit, 80 ... terminal, 81 ..Display unit, 83... Reading unit, 84 to 91.

Claims (7)

In a component supply device equipped with a component mounting machine and provided with a plurality of slots in series, a tape that is detachably held by a feeder that is detachably mounted in the plurality of slots and contains a large number of components is wound. A method for collating reel parts,
When identifying the slot in which the feeder holding the reel is mounted and parts verification is to be performed, each slot is assigned to the slot on the other end side from the slot on the one end side of the plurality of slots of the component supply device. A slot identification process to identify sequentially ,
Based on slot position information indicating the position of the specified slot, an arrangement part type information specifying step for specifying arrangement part type information indicating a part type of the part to be arranged in the specified slot;
Slot position information teaching step for teaching the slot position information;
A reel identification information reading step of reading reel identification information attached to the reel held by the feeder mounted in the specified slot based on the taught slot position information;
Based on the read reel identification information, a read component type information specifying step for specifying read component type information indicating a component type of the component arranged in the specified slot;
A component verification method comprising: a component verification step of verifying the read component type information and the arrangement component type information.   In a component feeder equipped with a plurality of slots arranged in series in each of the component mounting machines arranged in series in the substrate transport direction, it is detachably held in a feeder that is detachably attached to the plurality of slots. A method for collating parts of a reel on which a tape containing a large number of parts is wound,
  Component mounting disposed on the other end side from the component mounting device disposed on one end side of the component mounting machine when the slot on which the feeder holding the reel is mounted and component verification is to be performed is specified A slot specifying step of sequentially specifying each slot from one end side slot to the other end side slot among the plurality of slots of the component supply device of each component mounting machine;
  Based on slot position information indicating the position of the specified slot, an arrangement part type information specifying step for specifying arrangement part type information indicating a part type of the part to be arranged in the specified slot;
  Slot position information teaching step for teaching the slot position information;
  A reel identification information reading step of reading reel identification information attached to the reel held by the feeder mounted in the specified slot based on the taught slot position information;
  Based on the read reel identification information, a read component type information specifying step for specifying read component type information indicating a component type of the component arranged in the specified slot;
  A component verification method comprising: a component verification step of verifying the read component type information and the arrangement component type information. In the parts collation method according to claim 1 or 2,
The component verification method is characterized in that an error is reported when the result of the component verification is an error. In the parts collation method as described in any one of Claims 1-3,
In the component collating step, a display of a different color is lit on a lighting device provided in the corresponding slot according to whether the result of the component collation is correct or incorrect. A substrate transfer device for transferring the substrate in the substrate transfer direction;
Components housed in a tape wound around a reel that is detachably held by a feeder that is detachably mounted in a plurality of slots provided in series with a component supply device arranged adjacent to the substrate transport device A component mounting line having at least one component mounting device that is mounted on the substrate that is collected by the component mounting head and transported to the component mounting position by the substrate transport device;
A control device having a communication function for controlling the component mounting line;
A component mounting system comprising at least a reading unit that reads identification information of the reel, and a terminal that can communicate with the control device,
The controller is
When identifying the slot in which the feeder holding the reel is mounted and parts verification is to be performed, each slot is assigned to the slot on the other end side from the slot on the one end side of the plurality of slots of the component supply device. Slot specifying means for sequentially specifying ;
An arrangement component type information specifying unit for specifying arrangement component type information indicating a component type of the component to be arranged in the specified slot based on the slot position information indicating the position of the specified slot;
Slot position information display means for displaying the slot position information on a display unit of the terminal;
The reel identification information attached to the reel held by the feeder attached to the specified slot, which is read by the reading unit of the terminal based on the displayed slot position information, is read from the terminal. Reel identification information input means for input;
Reading component type information specifying means for specifying reading component type information indicating the component type of the component arranged in the specified slot based on the transmitted reel identification information;
A component mounting system comprising: a component collating unit that collates the read component type information and the arranged component type information. In the parts collation system according to claim 5,
The terminal has a display unit, displays at least the name of the control device and the name of the component mounting line at the top of the screen of the display unit, and at least the slot position information and the arrangement component type information at the center of the screen. Is displayed at the bottom of the screen.When verification of all the parts is completed, the verification completion is displayed over the current screen, and when the result of the component verification is incorrect, A component verification system that switches screens and displays errors on all screens. In the component mounting system according to claim 5 or 6,
The component mounting system, wherein the terminal is a portable information terminal having a wireless communication function.

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