JP4796461B2 - Component management apparatus and component management method for mounting machine - Google Patents

Description

This invention relates to parts management device and parts management how the mounter for mounting components on a substrate.

  2. Description of the Related Art Conventionally, as a mounting machine for mounting an electronic component on a substrate, an electronic component supplied from a component supply unit is sucked and sucked by a suction nozzle of a head and mounted on the substrate. For example, the component feeder of this mounting machine is equipped with a feeder such as a tape feeder or a tray feeder. However, parts are occasionally cut in the tape feeder during production. It is necessary to replenish.

  In a normal parts replenishment operation, after stopping the mounting machine, the tape feeder with the parts cut is removed from the mounting machine, and the empty reel is removed from the tape feeder. Thereafter, the tape reel storing the parts is attached to the tape feeder, and the tape feeder is mounted on the mounting machine, so that the operation of the mounting machine is resumed.

  In such a component replenishment operation, it takes a lot of time to replace the tape reel, which may reduce the production efficiency.

Therefore, in Patent Document 1, before starting production, a part having a large number of cassettes to be used is obtained and assigned so that the parts are supplied also in another cassette, thereby reducing the number of cassette replacements.
JP-A-6-209185 (Claims)

  However, in the conventional mounting machine shown in Patent Document 1, since information such as the total number of cassettes to be used and the number of replacements of each cassette is increased before starting production, the information is acquired. This requires a lot of time and causes a problem that productivity is lowered.

The present invention has been made in view of the above problems, easily production preparation and components supplemented and further on can be appropriately performed, provide a parts management device and parts management how the mounting device can be improved productivity The purpose is to do.

  The present invention provides the following means.

[1] A component management apparatus for a mounting machine, in which a plurality of component supply bodies in which a set of components for storing a plurality of components is set are mounted, and the components supplied from each component supply body are mounted on a substrate.
Means for storing part / remaining number information that associates the part type of the part aggregate with the remaining part number for each mounted part supplier;
Means for obtaining the number of parts supplied from each part supplier;
Based on the number of parts supplied for each part supplier and the part / remaining number information, means for determining the current number of remaining parts in the part aggregate of each part supplier;
A display device for displaying in real time while sequentially updating information on the current number of remaining parts in the parts assembly of each part supplier; and
Means for storing spare part / remaining number information associating a part type and a remaining part number of a spare part assembly for setting in a spare part supplier not mounted on a mounting machine;
Means for assigning a use priority to the spare parts aggregate stored in the spare parts / remaining number information in order of increasing number of remaining parts for each part type;
A component management apparatus for a mounting machine, comprising: means for displaying, on the display device, information associating spare parts aggregates with usage priorities .

[2] A component management apparatus for a mounting machine, in which a plurality of component supply bodies in which a set of components for storing a plurality of components is set are mounted, and the components supplied from each component supply body are mounted on a substrate.
Means for storing part / remaining number information that associates the part type of the part aggregate with the remaining part number for each mounted part supplier;
Means for obtaining the number of parts supplied from each part supplier;
Based on the number of parts supplied for each part supplier and the part / remaining number information, means for determining the current number of remaining parts in the part aggregate of each part supplier;
A display device for displaying in real time while sequentially updating information on the current number of remaining parts in the parts assembly of each part supplier; and
Means for acquiring the number of prepared spare parts supply units that are set in the spare parts assembly and not mounted on the mounting machine for each mounted part supply;
Means for rearranging information on the current number of remaining parts displayed by the display device in ascending order of the number of spare parts supplier for each mounted part supplier. Parts management device.

[3] Means for obtaining production board information including the remaining number of boards to be produced and the type and number of components mounted on the board;
Based on the production board information and the information on the current number of remaining parts, a means for predicting the part cutting order of each mounted component supplier,
The component management apparatus for a mounting machine according to the preceding item 1 or 2, further comprising means for rearranging information on the current number of remaining components displayed by the display device in order of component breakage for each mounted component supplier. .

  [4] Any one of [1] to [3], further including means for rearranging information on the current number of remaining parts displayed by the display device in order of increasing number of remaining current parts for each mounted component supplier. The mounting machine component management device described in 1.

[ 5 ] Means for obtaining production board information including the number of remaining boards to be produced and the type and number of components mounted on the board;
Based on the production board information and the information on the current number of remaining parts, a means for determining the number of parts shortage for each mounted component supplier,
Information about number of remaining components of the current that is to be displayed by the display device, according to any one of the above items 1-4, further comprising a means for rearranging the order often parts shortage for each component supply unit which is mounted Component management device for mounting machines.

[ 6 ] A component management method for a mounting machine, in which a plurality of component supply bodies in which a set of components for storing a plurality of components is set are mounted, and the components supplied from each component supply body are mounted on a substrate.
For each component supplier to be mounted, the component / remaining number information in which the component type of the component assembly is associated with the remaining number of components is stored.
Get the number of parts supplied from each part supplier,
Based on the number of parts supplied for each part supplier and the part / remaining number information, the current number of remaining parts in the part aggregate of each part supplier is calculated,
Information related to the current number of remaining parts in the parts assembly of each part supplier shall be displayed in real time while being sequentially updated by the display device ,
Based on the information displayed on the display device, while preparing in advance a spare parts supplier for replacement when the parts run out,
A component management method for a mounting machine, wherein when preparing a spare component supplier, a component assembly with a small number of remaining components is preferentially set .

According to the component management apparatus for a mounting machine according to the above invention [1], since the remaining number-related information for each component supplier is displayed on the display device, the operator supplies each component supplier via the display information. parts can grasp the remaining number, it is possible to perform the component replenishment easily and accurately, can be maintained high productivity. Further, since the spare part supply body only needs to be prepared after the start of production, the preparatory work before production can be easily performed in a short time, and the productivity can be further improved.
Further, it is possible to consume from a stock with a small number of remaining parts, and it is possible to efficiently manage the inventory of parts aggregates.

According to the component management apparatus for a mounting machine according to the invention [2], since the component remaining number related information for each component supplier is displayed on the display device, the operator supplies each component supplier via the display information. The remaining number of parts can be grasped, parts can be replenished easily and accurately, and high productivity can be maintained. Further, since the spare part supply body only needs to be prepared after the start of production, the preparatory work before production can be easily performed in a short time, and the productivity can be further improved.
Further, since the spare parts supplier is rearranged and displayed in order from the smallest number for each part supplier, the operator can grasp an efficient work procedure and improve workability.

According to the mounting device component management apparatus according to the above inventions [3] to [ 5 ], the remaining component number related information is rearranged and displayed in a predetermined order, such as the order in which components are out of order. By referring to the above, the operator can grasp an efficient work procedure and improve workability.

According to said invention [ 6 ], the component management method of the mounting machine which has the same effect can be provided similarly to the component management apparatus of the said mounting machine.

  FIG. 1 is a schematic side view showing a mounting line to which a component management apparatus for a mounting machine according to an embodiment of the present invention is applied. As shown in the figure, this mounting line includes, from the upstream side to the downstream side, a substrate loading machine 1, a printing machine 2, a plurality (three) of mounting machines 10 ..., an inspection machine 3, a reflow furnace 4, and a substrate unloading machine. Equipment of 5 etc. are arranged side by side.

  The substrate carry-in machine 1 contains a large number of substrates and sequentially carries the substrates into the printing machine 2. The printing machine 2 applies cream solder to a predetermined area of a substrate that has been carried in by printing. The mounting machines 10 are for mounting electronic components at predetermined positions on a substrate. The inspection machine 3 inspects the mounting state of the electronic component mounted on the board. The reflow furnace 4 reflows the cream solder and solders the substrate and the component. Further, the substrate unloader 5 sequentially stores substrates unloaded from the reflow furnace 4.

  Further, each facility such as the mounting machine 10 constituting the mounting line is provided with a control device 6... Configured by a personal computer or the like, and the drive of each facility is controlled by each control device 6. . Further, the control devices 6 are connected via communication means, and by performing transmission and reception of signals between the control devices 6.

  Each of these facilities is provided with a display device 62... Such as a monitor for displaying the operation status.

  FIG. 2 is a plan view showing an example of the mounting machine 10 applied to this embodiment. As shown in the figure, the mounting machine 10 is disposed on a base 11 and conveys a substrate P, a component supply unit 30 disposed on both sides of the conveyor 20, and a base 11. The electronic component mounting head unit 40 is provided.

  The component supply unit 30 is provided on the upstream side and the downstream side of the conveyor 20 on the front side and the rear side, respectively. In this embodiment, the component supply unit 30 is configured so that a plurality of tape feeders 31 as component supply bodies can be mounted side by side. The components supplied from the component supply unit 30 can be picked up by the head unit 40.

  The head unit 40 is movable in a region extending between the component supply unit 30 and the mounting position on the printed circuit board P so that components can be picked up from the component supply unit 30 and mounted on the printed circuit board P. Specifically, the head unit 40 is supported by a head unit support member 42 extending in the X axis direction (substrate transport direction of the conveyor 20) so as to be movable in the X axis direction. The guide rails 43 and 43 extending in the Y-axis direction (a direction orthogonal to the X-axis in the horizontal plane) are supported so as to be movable in the Y-axis direction. The head unit 40 is driven in the X axis direction by the X axis motor 44 via the ball screw 45, and the head unit support member 42 is driven in the Y axis direction by the Y axis motor 46 via the ball screw 47. To be done.

  The head unit 40 is mounted with a plurality of heads 41 aligned in the X-axis direction. Each head 41 is driven in a vertical direction (Z-axis direction) by an elevating mechanism using a Z-axis motor as a drive source, and is driven in a rotation direction (R-axis direction) by a rotation drive mechanism using an R-axis motor as a drive source. It has come to be.

  At the tip of each head 41, a suction nozzle for picking up electronic components and mounting them on the substrate is provided. Each suction nozzle is supplied with a negative pressure from a negative pressure means (not shown) at the time of component suction, and can suck the electronic component with a suction force by the negative pressure.

  In FIG. 2, reference numeral 12 denotes a camera, which captures an image of the state of a component sucked by the head unit 40 so that a positional deviation of the component can be detected.

  As shown in FIG. 2, the component feeder 30 to which the tape feeder 31 is attached can be attached with a plurality of tape feeders 31. Further, as shown in FIG. 3, a storage medium 301 made of a bar code seal or the like storing arrangement position information of the mounted tape feeder 31 is provided at each tape feeder attachment portion in the component supply unit 30 of the mounting machine 10. It is stuck. Further, the mounting machine 10 is provided with a bar code reader (code reading device) 13 for reading information on the bar code sticker (storage medium) 301.

  As shown in FIGS. 4 and 5, each tape feeder 31 is mounted with a reel 313 wound with a tape storing small pieces of components such as ICs and transistors at predetermined intervals, and the tape is intermittently fed from the reel 313. Thus, the parts stored on the tape are sequentially supplied. Each tape feeder 31 constitutes a component supply body.

  A storage medium 312 made of a bar code seal or the like in which feeder ID information is stored is affixed to the side surface of each tape feeder 31, and the bar code sticker 31 is attached before the tape feeder 31 is attached to the component supply unit 30. Is read by a bar code reader (code reading device) 13 or the like connected to the mounting machine 10 so that the feeder ID and the like can be known. Further, by reading the bar code seal (storage medium) 301 at the component arrangement position of the component supply unit 30 to which the tape feeder 31 is to be attached with a bar code reader (code reader) 13 or the like, the position information and the position thereof are read. Is associated with the tape feeder and is stored in a predetermined database.

  On the side surface of the reel 313 set in each tape feeder 31, a storage medium 315 made of a bar code seal or the like storing reel ID information capable of identifying each reel is stored in a tape wound around each reel. A storage medium 316 including a bar code sticker storing information on the types of parts (manufacturer part number), a storage medium including a bar code sticker storing information on the number of parts stored in the tape (initial storage number) 317 is attached.

  Since the component type (type) supplied by each tape feeder 31 depends on the reel 313 to be set, when setting the reel 313 on the tape feeder 31 as described later, the feeder ID and the component information are associated with each other. Accumulated in the database.

  FIG. 6 is a block diagram showing a control system of the mounting machine of this embodiment. As shown in the figure, the mounting machine 10 includes a control device 6 as a controller composed of a personal computer or the like. Various operations of the mounting machine 10 are controlled by the control device 6, and operations described in detail later are performed. Automatically executed.

  The control device 6 includes an arithmetic processing unit 60, a production program storage unit 63, a mounting control processing unit 64, and a verification code storage unit 65.

  The arithmetic processing unit 60 comprehensively manages various operations of the mounting machine 10.

  The production program storage unit 63 stores a production program (mounting program) for mounting each electronic component on the board W. The production program includes information on the mounting position (coordinates) and orientation of each electronic component based on the circuit pattern of the substrate W, the position (coordinates) of the tape feeder to which each electronic component is supplied, and the like as will be described in detail later. It is.

  The mounting control processing unit 64 controls the operation when mounting the component on the board according to the production program.

  The verification code storage means 65 stores information such as ID information read by the bar code reader (code reader) 13.

  The control device 6 is connected to a display device (monitor) 62 such as a CRT display or a liquid crystal display for displaying various information. Furthermore, an input operation device 61 such as a keyboard and a mouse for inputting various information is connected to the control device 6.

  Further, the control device 6 is connected to databases 71 to 74 in which various information necessary for controlling the operation of the mounting machine 10 is stored.

  As shown in FIG. 7, the database 71 stores information (production program / production lot number comparison table) that associates the production program with the number of production lots. Information stored in the database 71 constitutes production board information.

  In this comparison table, “line name” is a line number of an operating mounting line (production line).

  “Board name” is the name of the board produced by each mounting line.

  “Number of lots” indicates the total number of produced boards in each mounting line.

  The “remaining number of sheets” is the remaining number of boards that are being produced in each production line, and is dynamic data that is updated in real time every time one board is mounted.

  As shown in FIG. 8, the database 72 stores information (reel parts / remaining number comparison table) that associates the tape feeder, the tape reel mounted on the tape feeder, the inventory parts set on the reels, and the remaining number of parts. Accumulated. Information stored in the database 72 constitutes reel part / remaining number information and spare part / remaining number information.

  In this comparison table, “reel ID (unique ID)” is a reel ID name that is assigned to each tape reel and can be identified.

  “In-house part name” is an in-house part name of a part set on each reel.

  The “remaining number” is the remaining number of parts set on each reel, and in the case of a new product, it is the number of pieces (initial number stored). This remaining number is dynamic data that is updated in real time every time it is changed.

  The “use priority number” is a use priority when using reels for each component type, and the order setting method will be described in detail later.

  “Feeder ID” is a tape feeder ID name that is assigned to each tape feeder and can be identified. The feeder ID here is information associated with the reel, and is described as blank (reel only) when the reel is not mounted.

  The “machine installed flag” indicates the mounting state of the corresponding tape feeder to the mounting machine, and is held at “1” when attached, and held at “0” when not attached. .

  The “prepared flag” indicates the attached state of the corresponding reel to the tape feeder, and is held at “1” when attached, and held at “0” when not attached.

  As shown in FIG. 9, the database 73 stores information (in-house part name / manufacturer part number comparison table) in which the in-house part names of the parts to be mounted are associated with the manufacturer part numbers.

  In this comparison table, “number of pieces” is the initial number of parts stored in the corresponding reel.

  “Parts storage (number)” indicates a place where a corresponding reel (part) is stored. The manufacturer part number indicates a so-called manufacturer model name and is basically different from the in-house part name.

  The database 74 is related to a production program such as information related to a component to be supplied (supply component information table) as shown in FIG. 10 and information related to a component mounting position (component mounting position table) as shown in FIG. Information (production program information) is accumulated. Such production program information is provided for each mounting line. Information stored in the database constitutes production board information.

  In the supplied parts information table of the production program information shown in FIG. 10, “machine ID” is a machine ID name that is assigned to each mounting machine and can be identified.

  The “component arrangement position” indicates the mounting position (location) number of the tape feeder with respect to the mounting machine.

  “Number of mounted (number of used)” is the number of components used for each component type when one board is mounted.

  “Remaining Number”, “Machine Installed Feeder ID”, “Prepared Feeder ID”, “Number of Parts Insufficient”, “Number of Prepared Feeders”, “Part Candidate (Reel ID)”, “Parts Warehouse (Number)” This is information linked to the accumulated information of other storage devices, and is updated in real time when the original information is changed.

  Among these pieces of information, the “remaining number” is the number of remaining parts for each tape feeder as described above, but other information will be described in detail later.

  As shown in FIG. 11, the part mounting position table of the production program information includes the mounting position in the X direction, the Y direction, and the mounting angle in the R direction for each part (in-house part name).

  On the other hand, in this embodiment, when a part (tape reel) is newly received before production, first, necessary information is input to the in-house part name / manufacturer part number comparison table shown in FIG. That is, as shown in FIG. 12, an in-house part name / manufacturer part number comparison table file is opened and “in-house part name” is input (step S11). This information input operation may be performed via a computer as a control device installed in each mounting machine 10, or may be performed via a higher-level computer that controls each computer. This may be done via another independent computer.

  After inputting the “in-house part name”, the barcode corresponding to the in-house part name is read by the barcode reader (code reading device) 13 with the barcode (storage medium 315, 316, 317), and the corresponding reel Reel ID information, manufacturer part number information, quantity information, and parts warehouse (number) information are read (step S12).

  As a result, reel information such as “manufacturer part number”, “number of pieces”, and “part warehouse (number)” is automatically written in the record (row) corresponding to the in-house part name / manufacturer part number comparison table. (Step S13).

  Subsequently, the reel information is registered in the reel parts / remaining number comparison table (step S14). Since new reel information is registered at this time, “number of pieces” is written in “remaining number”.

  In the reel parts / remaining number comparison table, the information immediately after the previous use is stored as it is for each information of the existing reels. Therefore, when the reel ID of the existing reel is read, the reel ID is collated with a reel part / remaining number comparison table, etc., and the current information (state) of the reel, for example, the type of part, the remaining number, etc. are accurately grasped. Can be acquired.

  In the production facility of the present embodiment, when production is performed, for example, a plurality of mounting lines are operated in parallel, and a substrate is produced for each mounting line.

  For example, as shown in FIG. 13, at the start of production, a production program is acquired in the production program storage means of each machine (mounting machine) on each mounting line (step S21). The production program is fetched from a recording medium such as a CD-ROM, DVD-ROM, floppy disk or the like, a storage device such as a hard disk, a host computer or the like via a LAN or Internet network line. In addition, as shown in the production program information of FIGS. 10 and 11, the production program includes, for each mounting operation, data related to the type of component to be mounted, the mounting coordinate position on the board, and the like. Information on the supply component arrangement position, such as where to mount the component supply body (tape feeder) that supplies the component, is included.

  After acquiring the production program in this way, each mounting line is activated (step S22). Thus, the substrates are sequentially produced (step S23), and when a predetermined number of substrates are produced, each production line is stopped (step S24).

  Next, the operation of the mounting machine 10 installed in each mounting line will be described. First, regarding the tape feeder (mounted tape feeder 31) mounted on the component supply unit 30 of the mounting machine 10 by the setup work immediately before the start of operation, the machine mounted flag in the reel component / remaining number comparison table of FIG. “1 (mounted state)” is set. Further, for this mounted tape feeder 31, the prepared flag is necessarily set to "1".

  Further, in the present mounting machine, a predetermined spare tape feeder 31 is prepared in advance in preparation for component shortage. In this embodiment, as shown in the comparison table, two reels with the part name “AAA” and the reel IDs “1111” and “6666” are set in the tape feeder with the feeder IDs “FDR2” and “FDR3”. Two spare tape feeders are prepared. The spare tape feeder is arranged in the vicinity of the mounting machine, but is not attached to the mounting machine. Therefore, in the comparison table, the spare tape feeders “FDR2” and “FDR3” have the machine installed flag set to “0 (not installed)” and the prepared flag set to “1”. In the present embodiment, the preliminary tape feeder preparation work can be performed after the operation of the mounting machine is started (during operation).

  In this initial state, when the substrate is carried into the mounting machine 10 from the upstream equipment, the components supplied from the predetermined tape feeder 31 are picked up by the head unit 40 and mounted at a predetermined position on the substrate (FIG. 14). Step S1). At this time, each time a component is mounted, the reel row corresponding to each tape feeder in the reel component / remaining number comparison table of FIG. The “remaining number” of is subtracted.

  In this way, all the components are mounted on one board (step S2), and the board is carried out to the downstream equipment. At this time, in the production program / production lot number comparison table of FIG.

  If production continues (NO in step S3), the above mounting process is repeated (steps S1 to S3).

  On the other hand, inventory parts allocation processing is automatically performed (step S4). This process is a process for obtaining preparation part information such as the type and number of parts to be prepared (reel and tape feeder) and the use priority of the preparation parts during mounting. This preparation part information is included in the information on the current number of remaining parts.

  Further, the preparation part information obtained in the inventory part assignment process is displayed on a display device 62 such as a monitor (step S5). These processes are repeated during substrate production (steps S3 to S5).

  On the other hand, during substrate production, the operator refers to the display information on the monitor (step S5), and prepares a spare tape feeder as necessary (step S6).

  Thus, during the board production (steps S1 and S2), the inventory parts assignment / display process (steps S4 and S5) and the tape feeder preparation / replacement process (step S6) are performed, and the production of all the boards is completed ( In step S3, YES), the operation of the mounting machine is completed.

  Next, the operation of the inventory parts allocation process (step S4) will be described in detail. As shown in FIG. 15, the “number of parts shortage” is calculated for each part placement position (step S401).

  The number of parts shortage is information posted in the production program supply part information table shown in FIG. 10 as described above, and can be obtained by the following equation.

“Number of parts shortage” = “Number of parts mounted on one board (number of used)” × “Number of remaining boards produced” − (“Number of remaining parts of installed tape feeder” + “Number of remaining parts of prepared spare tape feeder”) )
In the production program supply part information table of FIG. 10, when calculating the shortage of parts (part name “AAA”) at the part placement position “1” for the mounting machine “Y1” on the line “1”, From the program / production lot number comparison table (FIG. 7) and the reel parts / remaining number comparison table (FIG. 8), the number of mounted “10”, the remaining number “50”, and the remaining number “15” of the installed tape feeder (FDR1). The remaining numbers “150” and “300” of the prepared spare tape feeders (FDR2) and (FDR3) are respectively applied to the above equations. As a result, “35” is calculated as the number of parts shortage. The computer function (program) for calculating the number of parts shortage constitutes means for obtaining the number of parts shortage.

  The number of parts shortage “35” is written in the corresponding column of the supply part information table (FIG. 10) of the production program information (step S402).

  Next, a part candidate of a part whose part shortage number is a positive number (part that will run out during production) is extracted, and a use priority number is assigned (step S403). Specifically, in the supply parts information table (FIG. 10), for each record (row) in which the number of parts shortage is a positive number, the “in-house part name” is the same (same type) on the reel parts / remaining number comparison table. And “preparation completed flag“ 0 (unprepared state) ”is searched and extracted in order from the smallest“ remaining number ”. In the same comparison table, the part name “AAA” with the fourth reel ID “3333” is retrieved and extracted. That is, the first to third parts of the part name “AAA” are the preparation flag “1” and are mounted or prepared, and are listed in advance in the comparison table.

  In addition, the use priority numbers are assigned by incrementing from “1” in order from the smallest “remaining number”. In addition, in the part name “AAA” in the comparison table, the first to third ones have been prepared and the use priority numbers “1” to “3” have already been assigned. Therefore, the use priority number of the fourth reel ID “3333” extracted this time is “4”.

  The number of candidate parts (number of reels) extracted here is determined in relation to the number of parts shortage. For example, when one component candidate is extracted and the remaining number is smaller than the number of component shortages, the second component candidate is searched and extracted. If the total remaining number of two component candidates is greater than or equal to the number of parts shortage, no further extraction is performed, and if the total number of parts is smaller than the number of parts shortage, the third and subsequent part candidates are further extracted. In this way, component candidates are extracted until the total remaining number becomes equal to or greater than the number of component shortages. Further, even when a plurality of component candidates are extracted, use priority numbers are assigned in order from the smallest “remaining number” as described above.

  After extracting candidate parts for all parts that will be out of parts, the in-house part name / manufacturer part number comparison table (FIG. 9) is referred to, and each candidate part (reel ID) and its parts store (number) are produced. Is supplied to the supply part information table (FIG. 10) (step S404). As a result, the inventory parts allocation process (step S4 in FIG. 14) is completed.

  Next, the operation of the monitor display process (step S5 in FIG. 14) will be described in detail. FIG. 16 is an example of a line remaining number table displayed on the display device 62 such as a monitor. As shown in the figure, this line remaining number table displays information related to the remaining number of parts (part remaining number related information) arranged for each installed tape feeder. It is displayed based on the information written in (FIG. 10). As will be described in detail below, the remaining parts relation is sequentially displayed from the top in descending order of tape feeder replacement priority for each part placement position (tape feeder).

  That is, the production program parts supply information is displayed on the monitor line remaining number table (step S501 in FIG. 17).

  Next, the components are sorted in order from the one with the earliest component cutout (first sort: step S502). In other words, for each tape feeder that is currently installed, the component dead time is predicted based on the remaining number of components and the cycle time that the corresponding tape feeder consumes the components, and the remaining time for each tape feeder (component placement position). Number-related information is rearranged in order from the earliest part cut.

  In the first sort of the present invention, the remaining number related information for each component arrangement position may be sorted in the order of decreasing remaining number.

  Next, after performing the first sort, the parts are arranged in ascending order of the number of spare tape feeders prepared for each component arrangement position (second sort: step S503).

  Next, after performing the second sort, the parts are arranged in descending order of the number of parts for each part arrangement position (third sort: step S504).

  In this embodiment, the means for rearranging is configured by the function (program) of the computer for rearranging by the first to third sorts.

  As a result, the remaining number related information (records) for each component placement position is rearranged in the monitor line remaining number table (FIG. 15) in descending order of replacement priority. Therefore, the operator checks this remaining number table. Thus, it is possible to easily and accurately grasp the most efficient tape feeder (parts) replacement and preparation work procedure.

  In the present embodiment, a display means is configured by a computer function (program) for displaying each of the remaining number related information on a display device such as a monitor.

  In the present embodiment, in the remaining number related information displayed on the monitor, when the tape feeder needs to be replaced at an early stage, but the spare tape feeder has not been prepared yet, it means that the operator is warned. Thus, the display number of the reserve number of the spare tape feeder may be blinked, or may be lit and blinked in red or yellow.

  In the present embodiment, the remaining number related information is displayed on the monitor of the corresponding mounting machine, and is also necessary for the monitor of the host computer, the monitor of other equipment, the monitor of the computer set in the parts warehouse, etc. Depending on the situation, it may be possible to display appropriately.

  Next, the operation of the tape feeder preparation process (step S6 in FIG. 14) in this embodiment will be described in detail. As shown in FIG. 18, the operator determines the parts to be prepared with reference to the line remaining number table (FIG. 16) displayed on the monitor, and confirms “part candidates” and “parts storage” of the parts. Thereafter, the part (reel) of the “part candidate” of the part to be prepared is taken out from the “parts store” and attached to the spare tape feeder (step S601).

  Subsequently, “reel ID” and “manufacturer part number” are read via a barcode provided on the component (reel) (step S602).

  The reel information thus read is collated with the supply part information (FIG. 10) of the production program and the reel part / remaining number contrast information (FIG. 8). It is automatically determined whether or not it is a “part candidate”.

  If it is not a candidate for parts to be prepared (NO in step S603), an error warning is issued (step S607), and the process returns to the work start time. As the error warning, a display on a monitor, a buzzer sound, a warning light, or the like is used.

  Further, when the reel taken out is a candidate for parts to be prepared (YES in step S603), the “feeder ID” is read via a barcode provided on the tape feeder (step S604).

  In this way, the prepared reel is registered in association with the tape feeder in the reel part / remaining number contrast information (FIG. 8) (step S605). At this time, “1” is written in the “prepared flag” corresponding to the prepared reel.

  If the reel part / remaining number comparison information does not include the “reel ID” of the prepared reel, the prepared reel is additionally registered in a new record. In a new reel record, predetermined reel information, for example, “reel ID”, “in-house part name”, “remaining number (entering number)”, “feeder ID”, and “prepared flag (1)” are written.

  The corresponding information in the supply part information table (FIG. 10) of the production program, for example, “prepared feeder ID”, “number of prepared feeders”, “number of parts shortage”, etc. are updated as appropriate according to the information written next. (Step S606). Thus, the tape feeder preparation process is completed.

  On the other hand, in the case where the tape feeder is replaced due to parts being cut or the like, as shown in FIG. 19, the corresponding spare tape feeder is selected, and the “feeder ID” is read via the barcode provided on the tape feeder (step S701). ).

  The feeder ID thus read is collated with the supply part information (FIG. 10) and reel part / remaining number contrast information (FIG. 8) of the production program, and the selected spare tape feeder (feeder ID) is scheduled to be replaced. It is automatically determined whether it is a spare tape feeder (feeder ID).

  If the spare tape feeder is not to be replaced (NO in step S702), an error warning is issued (step S706), and the process returns to the start time. As the error warning, a display on a monitor, a buzzer sound, a warning light, or the like is used.

  If the spare tape feeder is to be replaced (YES in step S702), the mounted tape feeder is removed and the spare tape feeder is attached to the corresponding component supply unit (step S703).

  Next, in the reel part / remaining number contrast information (FIG. 8), the “machine attached flag (1)” is written in the record corresponding to the mounted spare tape feeder (step S704).

  Next, according to the newly written information, corresponding information in the supply part information table (FIG. 10) of the production program, for example, “(part) remaining number”, “machine installed feeder ID”, “prepared feeder ID” ”,“ Number of prepared feeders ”and the like are updated as appropriate (step S705). This completes the tape feeder attachment process (exchange process).

  As described above, according to the mounting machine of the present embodiment, the display device 62 such as a monitor is related to the remaining number of parts such as the “number of remaining parts” of each installed tape feeder and the “number of parts shortage” of each component placement position. Since the information is displayed in real time while being sequentially updated, the operator can accurately predict the part dead time (tape feeder replacement time) of each tape feeder (part placement position) by referring to the display information, The operator can immediately cope with the parts shortage and maintain high productivity. In particular, the operator can prepare the spare tape feeder in advance by referring to the display information on the monitor, so the tape feeder can be replaced by using the spare tape feeder prepared in advance when the parts run out. Work can be performed efficiently and smoothly, and productivity can be further improved.

  Furthermore, in the present embodiment, the monitor displays the information related to the remaining number of parts for each tape feeder in the order of early part shortage or in ascending order of remaining parts, so that the operator can view this monitor. Thus, an efficient work procedure can be grasped instantaneously, and the tape feeder preparation / replacement work can be performed more efficiently. In addition, the monitor also displays the number of spare tape feeders prepared, the candidate parts (reel ID) that are predicted to be out of parts, and the parts store (number) of the candidate parts. Thus, the operator can surely grasp a more efficient work procedure, and can perform tape feeder preparation work and the like more efficiently.

  Further, in the present embodiment, the information displayed on the monitor is rearranged in order of increasing number of spare tape feeders after rearranging the information related to the remaining number of parts (first sort) in ascending order of parts cutout (first sort) ( (Second sort), and the parts are sorted in descending order of the number of parts (the third sort), so the tape feeder can be reliably sorted in the order of the urgent level of preparation and replacement work, and the operator can Based on this, the work can be performed in a more efficient order, and the workability can be further improved.

  Further, in the present embodiment, since the spare tape feeder necessary when the parts run out is prepared while performing the board production, the production can be started for the time being if the tape feeder for the mounting machine can be prepared. For this reason, for example, compared to preparing all the tape feeders necessary for production before the start of production, the number of tape feeder preparations before the start of production is reduced, and the preparation (preparation) work before production is quick and easy. Can be done. As described above, the preparation work before the start of production is shortened, and the production can be started earlier by that amount, so that a sufficient production time can be secured and the productivity can be further improved.

  In this embodiment, when a plurality of reels (tape feeders) having the same component type are used, since the remaining components are used in order from the smallest, it is possible to efficiently consume from a stock with a small number of remaining components. it can. Therefore, it is possible to prevent problems such as many stocks with a small number of remaining parts remaining randomly in the parts warehouse, and to efficiently manage the inventory of parts (reels). As a result, reel selection work, reel take-out work, tape Feeder preparation work can be performed smoothly.

  In the present embodiment, the tape feeder 31 is employed as the component supply device (feeder). However, the present invention is not limited thereto, and in the present invention, a tray feeder can also be employed as the component supply device. The tray feeder includes a magazine that is stored in a state where a number of pallets are stacked, and a component tray that stores (stores) electronic components is placed on each pallet. When each pallet is pulled out from the magazine, it is appropriately picked up by each head 41 of the head unit 40. When this tray feeder is adopted, a storage medium made up of pallet ID information and a bar code sticker in which tray ID information is stored is attached to each pallet and each tray. When this tray feeder is used, the component tray is configured as a component assembly, and one to a plurality of pallets are configured as a component supply body, and the same operational effects can be obtained as described above.

It is a schematic side view of the mounting line concerning one Embodiment of this invention. It is a top view which shows the mounting machine applied to embodiment. It is a side view which shows the mounting machine applied to embodiment. It is a side view which shows the tape feeder applied to the mounting machine of embodiment. FIG. 4A is a side view showing a reel of a tape feeder applied to the embodiment, and FIG. 4B is a side view showing a tape feeder main body. It is a block diagram which shows the control system of the mounting machine of this embodiment. It is a figure which shows the production program / production lot number comparison table used in embodiment. It is a figure which shows the reel components / remaining number comparison table | surface used by embodiment. It is a figure which shows the in-house component name / maker part number comparison table used in embodiment. It is a figure which shows the supply component information table of the production program information used by embodiment. It is a figure which shows the components mounting position table | surface of the production program information used by embodiment. It is a flowchart for demonstrating the components information registration process at the time of components receipt in embodiment. It is a flowchart for demonstrating operation | movement of the production line in embodiment. It is a flowchart for demonstrating the operation | movement during mounting machine operation | movement of embodiment. It is a flowchart for demonstrating the inventory components allocation process in the mounting machine of embodiment. It is a figure which shows an example of the line remaining number table displayed on the display apparatus in the mounting machine of embodiment. It is a flowchart for demonstrating the monitor display process in the mounting machine of embodiment. It is a flowchart for demonstrating the tape feeder preparation process in embodiment. It is a flowchart for demonstrating tape feeder mounting | wearing processing at the time of tape feeder replacement | exchange in embodiment.

Explanation of symbols

10 Mounting Machine 31 Tape Feeder 313 Reel (Component Assembly)
62 Display device P Substrate

Claims (6)

A component management device for a mounting machine, in which a plurality of component supply bodies in which a set of components for storing a plurality of components is set is mounted, and the components supplied from each component supply body are mounted on a substrate,
Means for storing part / remaining number information that associates the part type of the part aggregate with the remaining part number for each mounted part supplier;
Means for obtaining the number of parts supplied from each part supplier;
Based on the number of parts supplied for each part supplier and the part / remaining number information, means for determining the current number of remaining parts in the part aggregate of each part supplier;
A display device for displaying in real time while sequentially updating information on the current number of remaining parts in the parts assembly of each part supplier; and
Means for storing spare part / remaining number information associating a part type and a remaining part number of a spare part assembly for setting in a spare part supplier not mounted on a mounting machine;
Means for assigning a use priority to the spare parts aggregate stored in the spare parts / remaining number information in order of increasing number of remaining parts for each part type;
A component management apparatus for a mounting machine, comprising: means for displaying, on the display device, information associating spare parts aggregates with usage priorities . A component management device for a mounting machine, in which a plurality of component supply bodies in which a set of components for storing a plurality of components is set is mounted, and the components supplied from each component supply body are mounted on a substrate,
Means for storing part / remaining number information that associates the part type of the part aggregate with the remaining part number for each mounted part supplier;
Means for obtaining the number of parts supplied from each part supplier;
Based on the number of parts supplied for each part supplier and the part / remaining number information, means for determining the current number of remaining parts in the part aggregate of each part supplier;
A display device for displaying in real time while sequentially updating information on the current number of remaining parts in the parts assembly of each part supplier; and
Means for acquiring the number of prepared spare parts supply units that are set in the spare parts assembly and not mounted on the mounting machine for each mounted part supply;
Means for rearranging information on the current number of remaining parts displayed by the display device in ascending order of the number of spare parts supplier for each mounted part supplier. Parts management device. Means for obtaining production board information including the remaining number of boards produced, and the type and number of components mounted on the board;
Based on the production board information and the information on the current number of remaining parts, a means for predicting the part cutting order of each mounted component supplier,
The component management of the mounting machine according to claim 1, further comprising: means for rearranging information on the current number of remaining components displayed by the display device in the order of early component breakage for each mounted component supplier. apparatus.   4. The information processing apparatus according to claim 1, further comprising a unit that rearranges information on the current number of remaining parts displayed by the display device in order of decreasing current number of remaining parts for each mounted component supplier. 5. Component management device for mounting machines. Means for obtaining production board information including the remaining number of boards produced, and the type and number of components mounted on the board;
Based on the production board information and the information on the current number of remaining parts, a means for determining the number of parts shortage for each mounted component supplier,
Provides information about number of remaining components of the current that is to be displayed by the display device, in any one of claims 1 to 4, further comprising for each component supply unit which is mounted and means for rearranging the order often parts shortage, the Component management device for mounting machines. A component management method for a mounting machine in which a plurality of component supply bodies in which a set of components for storing a plurality of components is set is mounted, and components supplied from each component supply body are mounted on a substrate,
For each component supplier to be mounted, the component / remaining number information in which the component type of the component assembly is associated with the remaining number of components is stored.
Get the number of parts supplied from each part supplier,
Based on the number of parts supplied for each part supplier and the part / remaining number information, the current number of remaining parts in the part aggregate of each part supplier is calculated,
Information related to the current number of remaining parts in the parts assembly of each part supplier shall be displayed in real time while being sequentially updated by the display device ,
Based on the information displayed on the display device, while preparing in advance a spare parts supplier for replacement when the parts run out,
A component management method for a mounting machine, wherein when preparing a spare component supplier, a component assembly with a small number of remaining components is preferentially set .

Images