JP2004167622A - Working line for substrate, and method and program for its management - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To accurately and easily manage an electronic circuit manufacturing line. <P>SOLUTION: The electronic circuit manufacturing line is constituted such that a plurality of devices including a screen printing device 10, an adhesive coating device 12, electronic circuit part mounting devices 14 and 16, a reflow furnace 18 and the like are disposed from an upstream to a downstream. Part of the line is made to be a prohibited zone where the change of a circuit substrate order is prohibited, and the remaining part is made to be an non-prohibited zone. Reading devices 30, 32, 34 and 36 which read substrate identification codes provided in the circuit substrates are provided at the inlet and outlet of the prohibited zone, respectively, so that the prohibited zone is made to be an order change monitoring zone to monitor the change of the circuit substrate order. Substrate IDs read by the reading devices 30 and 34 at the inlet side and those read by the reading devices 32 and 36 at the outlet side are compared so as to correspond to each other. When the order is different, a worker is notified to an effect that the substrate order is changed in the prohibited zone, and requested to input the substrate order after the change. Whether the inputted substrate order is right or not may be determined by comparison with the substrate IDs on the outlet side. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an on-board work line and a method and program for managing the work line.
[0002]
[Prior art]
Upstream of multiple devices including on-board working devices such as a temporary adhesive application device for applying temporary adhesive to a circuit board and an electronic circuit component mounting device for attaching electronic circuit components to a circuit board to which temporary adhesive has been applied Board identification information that can individually identify circuit boards in a board work line arranged from the side to the downstream side (including lines on which the same kind of board work equipment such as a plurality of electronic circuit component mounting devices are arranged) Based on management may be required. It is necessary to make the work on the circuit board by each board work machine suitable for each circuit board, and also when the setup change is automatically performed according to the change of the type of circuit board to be produced Substrate identification information is used. Furthermore, the production history of the circuit board to be produced may be recorded in order to manage the board-to-board work line or to manage the produced circuit board. For example, the board identification information provided on the circuit board is read by a reader, and the board identification information is used as a key in the database, the part identification information such as the lot number of the electronic circuit parts mounted on the circuit board, and used for production. The information of the device (such as the identification information of the component feeder that supplied the electronic circuit component or the component holding head that mounted the electronic circuit component) is recorded.
[0003]
Japanese Patent Application Laid-Open No. 7-321492 discloses a substrate working line in which a plurality of devices including a substrate working device such as a temporary fixing agent coating device and an electronic circuit component mounting device are arranged from the upstream side to the downstream side. Data writing / reading means are provided in each of the substrate working devices, and the quality information obtained by the processing of each device is written in the memory provided on the circuit board by the data writing / reading means, and is also written in the memory in the previous process. The quality information is read by a data writing / reading means. The quality information includes production history information such as a lot of components mounted on the circuit board and information for specifying a substrate working apparatus such as a mounting apparatus that has performed the work.
[0004]
If a reading device for reading information provided on a circuit board is provided in each of a plurality of devices such as a substrate working device constituting a substrate working line as described in the above publication, there is a problem that costs increase. . In some cases, the line for installing the reading device has to be lengthened.
In order to solve the above problem, it is also proposed to provide a reading device only on the most upstream side of the line. In this case, in order to properly use the board identification information, the circuit board is removed during production. There was a problem that the order could not be changed at all. For example, an operator performs a process of extracting and inspecting a circuit board and then returning it to the on-board work line in order to confirm whether the work is properly performed on the on-board work line. In this case, it is necessary for the worker to handle the circuit board so that the order is not changed with great care while being aware of the production order, which increases the mental burden on the worker.
[0005]
[Patent Document 1]
JP 7-321492 A
[0006]
[Problems to be solved by the invention, means for solving problems and effects]
The present invention has been made with the above circumstances as a background, and has been made with the object of accurately and efficiently managing work on a circuit board in a board-to-board work line. A line and a method and program for managing it are obtained. As with the claims, each aspect is divided into sections, each section is numbered, and is described in a form that cites the numbers of other sections as necessary. This is for the purpose of facilitating understanding of the present invention, and should not be construed as limiting the technical features described in the present specification and the combinations thereof to those described in the following sections. . In addition, when a plurality of items are described in one section, it is not always necessary to employ the plurality of items together. It is also possible to select and employ only some items.
[0007]
In each of the following items, (1) corresponds to claim 1, (2) corresponds to claim 2, (6) corresponds to claim 3, (7) corresponds to claim 4, ( The combination of (13) and (15) is in claim 5, (17) in claim 6, (18) in claim 7, (19) in claim 8, ( (20) corresponds to claim 9, (21) corresponds to claim 10, (22) corresponds to claim 11, and (25) corresponds to claim 12.
[0008]
(1) A part of the substrate work line formed by arranging a plurality of devices including at least one substrate work apparatus from the upstream side to the downstream side is a prohibited section, and another part is a permitted section. A method for managing an on-board work line, wherein the removal and insertion of a circuit board is prohibited while the removal and insertion of the circuit board is allowed in an allowable section.
Some of the devices that make up the board-to-board work line, for example, require only the circuit board to pass and do not require management based on the board identification information. In such a device, the circuit board is removed and inserted. (It is assumed that both removal and insertion are performed in order change). That is, it is not undesired to remove the circuit board or the like in the entire board work line. Then, if the removal is permitted in the section where the removal or the like can be performed, the worker can work against the substrate work apparatus as compared with the case where the whole work line is prohibited. Inspecting whether or not the work according to (2) is appropriately performed can be performed relatively early, and there is no need to pay attention to handling such as extraction of the circuit board.
Therefore, in the present invention, for example, a section that requires management based on the board identification information of the board-to-board work line is set as a prohibited section, and a section that does not require such management is set as an allowable section. . In this way, it is possible to perform a sampling inspection of the circuit board while reducing the mental burden on the operator.
(2) A loading order detection step of detecting a loading order of circuit boards into the prohibited section at the entrance of the prohibited section, and controlling the devices in the section based on the detected loading order in the prohibited section. The method for managing an on-board work line according to item (1).
If the order of loading circuit boards into the prohibited section is detected at the entrance of the prohibited section, and the devices in the prohibited section are controlled based on the detected loading order, an incorrect operation is performed on the circuit board. Alternatively, it is possible to prevent an erroneous production history from being created.
(3) The method for managing an on-board work line according to (2), wherein the insertion order detection step includes an identification information reading step in which identification information of a circuit board input into the prohibited section is read by an identification information reader.
In many cases, identification information for identifying each circuit board is provided on the circuit board in the form of a barcode, a two-dimensional code (also referred to as a two-dimensional barcode or QR code), and the like. If this identification information is read by the identification information reading device, the input sequence can be detected easily and accurately.
(4) A method for managing an on-board work line according to any one of (1) to (3), further including a discharge order detection step of detecting a discharge order of circuit boards from the prohibited section at the exit of the prohibited section. .
(5) The method for managing a substrate work line according to (4), wherein the discharge order detection step includes an identification information reading step of reading the identification information of the circuit board discharged from the prohibited section by an identification information reader.
[0009]
(6) A loading order detection step of detecting a loading order of circuit boards into the prohibited section at the entrance of the prohibited section, and a discharging order detection step of detecting the discharge order of the circuit boards from the prohibited section at the exit of the prohibited section. And an order change determination step for determining whether or not the discharge order detected in the discharge order detection step is different from the input order detected in the input order detection step, between the entrance and the exit The section is defined as an order change monitoring section. The method for managing an on-board work line according to (1).
In the prohibited section, the circuit board loading order and the discharging order are detected, and if it is determined whether or not the discharging order is different from the loading order, whether or not the circuit board is removed or inserted in the prohibited section is determined. Can be monitored. Forbidden sections can be used as order change monitoring sections. Although extraction and insertion of a circuit board is prohibited in the prohibited section, it is not completely impossible for an operator to extract or insert a circuit board.
Therefore, it is beneficial to monitor whether the circuit board has been extracted or inserted in the prohibited section based on the fact that the discharging order is different from the loading order.
(7) The order of loading circuit boards into the partial section at the entrance of at least a partial section of the counter-board work line in which a plurality of apparatuses including at least one counter-substrate working apparatus are arranged from the upstream side to the downstream side. A loading order detecting step for detecting, a discharging order detecting step for detecting the discharging order of the circuit boards from the partial section at the outlet of the partial section, and the discharging order detected in the discharging order detecting step is the charging order. A method for managing a substrate work line, comprising: an order change determination step for determining whether or not the loading order detected in the detection step is different, wherein the at least some section is set as an order change monitoring section.
According to this section, even if the circuit board is extracted or inserted by the operator in the circuit board work line, the circuit board loading order and the discharging order are detected, and whether or not the discharging order is different from the loading order. By determining whether or not the circuit board is extracted or inserted in at least a part of the section, it can be monitored. The whole or a part of the substrate-to-board work line can be used as the order change monitoring section.
[0010]
(8) The method for managing a substrate work line according to (6) or (7), including an order change notifying step for notifying the fact when the order is determined to be different in the order determining step.
The operator is informed that the circuit board discharge order is different from the input order. It is desirable to be notified by at least one means such as display display, buzzer sound, lamp lighting, and flashing.
(9) Any of the items (6) to (8) including an operation stop step of stopping the operation of the substrate work apparatus in at least the order change monitoring section when it is determined that the order is different in the order determination step. A method for managing a board-to-board work line.
For example, in order to wait for an input according to the input request of the next item, it is desirable to stop the operation of the substrate work apparatus at least in the order change monitoring section. In addition, when the circuit board determined to have a different order is a board of a different type from the planned one, adhesive may be applied to the circuit board or an unscheduled position on the subsequent circuit board, Since there is a high possibility that unscheduled counter-to-board work has been performed, such as mounting different parts, the operation of the on-board work device may be stopped in order to wait for the appropriate processing of the worker for that task. desirable.
(10) A change information input request for requesting an operator to input at least one information of extraction and insertion of a circuit board that causes the change in order when the order is determined to be different in the order determination step. A method for managing an on-board work line according to any one of (6) to (9).
If the operator inputs at least one piece of information of extraction and insertion based on the change information input request, the cause of the order change becomes clear, and the subsequent control such as control of the substrate working apparatus is appropriately performed. Can do. A determination process for determining whether or not the change information input by the operator is correct by comparing the input change information with the discharge order of the circuit boards detected in the discharge order detection process, and the change information When the detected discharge order is different, if a correction process or the like is performed to request the operator to input change information again and correct it, the work line against the substrate can be managed better.
(11) The method according to (10), including a treatment step of taking necessary measures for the circuit board existing in the order change monitoring section based on information input in response to a request in the change information input request step. To manage the board-to-board work line.
In the above “necessary treatment”, in addition to the change of the production history information described in the next section, for example, whether or not the types of the plurality of circuit boards that existed in the section where the order change occurred are the same, This includes checking whether or not the work for the circuit board that existed in the section where the order change occurred has been appropriately performed. This check may be performed by an operator or an apparatus. If it is determined that a defective circuit board is generated based on the above check, the defective circuit board is removed by the operator or the apparatus, or a rework is performed on the insufficient circuit board. This can also be considered as “necessary treatment”.
(12) Production history information change including a production history recording step of recording circuit board production history information in the order change monitoring section, wherein the treatment step changes the production history information recorded in the production history recording step. The method for managing an on-board work line according to item (11), including a step.
If the types of circuit boards whose order has been changed are the same, an inappropriate work has not been performed on the circuit boards, and an incorrect production history may be changed to a correct one.
[0011]
(13) A substrate working line in which a plurality of devices including at least one substrate working device are arranged from the upstream side to the downstream side,
A loading order acquisition unit that is provided at an entrance of at least a section of the substrate work line and acquires a loading order of circuit boards into the section;
A management unit that manages at least the at least a section based on at least the order of order acquired by the order of acquisition unit;
The board-to-board work line characterized by including.
(14) The input according to (13), wherein the input sequence acquisition unit includes a substrate identification information reading device that reads substrate identification information of an identification information recording unit provided on the circuit board input into the at least part section. Board work line.
In the case where a substrate identification information reader is provided at least at the entrance of a partial section, and a plurality of devices are arranged in the partial section, the reader of the reader is compared with providing a reader for each apparatus. The number can be reduced, equipment costs can be reduced, and lengthening of the line can be avoided. As the number of devices provided in the partial section increases, the cost reduction effect increases. The identification information recording unit is configured by at least one of a bar code, a two-dimensional code, a tag chip, and the like, for example. The tag chip is composed mainly of a memory, a communication circuit, and a logic circuit that connects them, and causes the reader to read the information stored in the memory or stores the received information in the memory by wireless communication. Can be made.
(15) Item (13), which includes a discharge order acquisition unit that is provided at an exit of at least a part of the section and acquires a discharge order of circuit boards from the section, and at least a part of the section is an order change monitoring section. Or the board | substrate work line as described in (14) term.
The “at least part of the section” is the above-described order change monitoring section.
(16) The pair according to (15), wherein the discharge order acquisition unit includes a board identification information reading device that reads board identification information of an identification information recording unit provided on a circuit board discharged from at least a part of the section. Board work line.
(17) A (13) to (15) item, which includes an order change determination unit that determines whether or not the discharge order acquired by the discharge order acquisition unit is different from the input order acquired by the input order acquisition unit (16) The substrate work line according to any one of items.
The description of the item (7) also applies to this item as it is.
(18) A (15) to (17) including an order change notifying unit for notifying when the discharging order acquired by the discharging order acquiring unit is different from the charging order acquired by the charging order acquiring unit. Item 4. A substrate work line according to any one of the items.
The description in item (8) also applies to this item as it is.
(19) When the discharge order acquired by the discharge order acquisition unit is different from the input order acquired by the input order acquisition unit, at least the section of the substrate work line in which the order change has occurred The on-board work line according to any one of (15) to (18), which includes an operation stop unit that stops the operation of the above.
The description of the item (9) is applicable to this item.
(20) When the discharge order acquired by the discharge order acquisition unit is different from the input order acquired by the input order acquisition unit, the operator is requested to remove and insert the circuit board that caused the order change. The board-to-board work line according to any one of (15) to (19), including a change information input request unit that requests input of at least one piece of information.
The description of the above item (10) applies to this item as it is.
(21) The information processing apparatus according to (20), further including a treatment unit that takes necessary measures for the circuit board existing in the at least part of the section based on information input in response to a request from the change information input request unit. Vs. board work line.
The description of the item (11) also applies to this item.
(22) Production history information change including a production history recording unit that records production history information of the circuit board in at least a partial section, wherein the treatment unit changes the production history information recorded by the production history recording unit. The board | substrate work line as described in (21) including a part.
The explanation of the item (12) also applies to this item.
[0012]
(23) A substrate working line in which a plurality of devices including at least one substrate working device are arranged from the upstream side to the downstream side,
A board identification information reading device that is provided at an entrance of at least a section of the substrate work line and reads board identification information of an identification information recording unit provided in a circuit board that is inserted into the section;
A management unit for managing at least the partial section based on at least the substrate identification information read by the substrate identification information reader;
The board-to-board work line characterized by including.
(24) A board identification information reading device that reads board identification information of an identification information recording unit provided at an exit of at least a partial section and provided on a circuit board discharged from the section. Vs. board work line.
The features described in the items (17) to (22) can be applied to the on-board work line in this item.
[0013]
(25) A program for managing, by a computer, at least a part of a substrate work line in which a plurality of devices including at least one substrate work device are arranged from the upstream side to the downstream side,
A loading order acquisition step of acquiring a loading order of circuit boards into the section at the entrance of the at least some section;
A discharge order acquisition step of acquiring a discharge order of circuit boards from the section at the exit of the at least some section;
An order change determination step for determining whether or not the discharge order acquired in the discharge order acquisition step is different from the input order acquired in the input order acquisition step;
A management program for a board-to-board work line, comprising:
A program suitable for carrying out the method for managing a substrate work line in the item (7) is obtained.
(26) The management program according to item (25), wherein at least one of the input order acquisition step and the discharge order acquisition step includes an identification information reading step of reading the identification information of the circuit board by an identification information reading device.
(27) The management program according to (25) or (26), which includes an order change notification step for notifying that when the order is determined to be different in the order determination step.
(28) including an operation stop step of stopping the operation of the substrate work apparatus in the section where the order change of the substrate work line occurs when it is determined that the order is different in the order determination step (25) The management program according to any one of items (27) to (27).
(29) A change information input request for requesting an operator to input at least one information of extraction and insertion of a circuit board that causes the change in order when the order is determined to be different in the order determination step. The management program according to any one of (25) to (28), including steps.
(30) A treatment step for taking necessary measures for the circuit board that existed in the section where the order change occurred on the substrate work line, based on the information inputted in response to the request in the change information input request step The management program according to item (29), including:
(31) A production history information change step including a production history recording step of recording production history information of the circuit board in the at least some section, wherein the treatment step changes the production history information recorded in the production history recording step. The management program according to item (30), including steps.
[0014]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 schematically shows an electronic circuit manufacturing line as an on-board work line according to an embodiment of the present invention. This electronic circuit manufacturing line is abbreviated as a screen printing apparatus 10, an adhesive application apparatus 12, an electronic circuit component mounting apparatus (hereinafter referred to as "component mounting apparatus") as a temporary fixing agent application apparatus for applying a temporary fixing agent to a circuit board. ) 14, 16 and a plurality of devices including a reflow furnace 18 for melting the solder and electrically connecting the components to the circuit board are arranged from the upstream side to the downstream side. The screen printing apparatus 10, the adhesive application apparatus 12, the component mounting apparatuses 14 and 16, and the reflow furnace 18 are examples of a substrate working apparatus. Further, a system control device 20 mainly including a host computer for centrally managing each of the above devices is disposed outside the electronic circuit manufacturing line. Further, between the adhesive applying device 12 and the component mounting device 14 and between the component mounting devices 14 and 16, transport devices 22 and 24 for transporting the circuit boards are provided, respectively. The conveying devices 22 and 24 may include, for example, a pair of conveyors 26 extending in the conveying direction and a driving motor 28 (see FIG. 2) as a driving source. The circuit board is transported to the downstream apparatus (component mounting apparatus 14 and component mounting apparatus 16) every time work is completed and the circuit board can be received in the downstream apparatus. . The component mounting device 14 on the upstream side in the substrate transport direction is a rotary head type mounting device having a mounting unit in which a plurality of mounting heads are intermittently rotated. The component mounting device 16 on the downstream side is an XY robot type mounting device in which the mounting unit can be moved to an arbitrary position on the XY coordinate plane, and a plurality of units (three in the illustrated example) are provided side by side in the transport direction. ing. For example, the component mounting device 14 mounts a relatively small electronic circuit component, and the component mounting device 16 mounts a relatively large or irregular electronic circuit component, so that the component mounting operation for one circuit board is performed. I do.
[0015]
As shown in FIG. 1, a part of the electronic circuit manufacturing line is a forbidden section and another part is a permissible section. In the prohibited section, the circuit board is not allowed to be extracted and inserted, while in the allowable section, the circuit board is allowed to be extracted and inserted. In the present embodiment, a section including the adhesive application device 12, the transport device 22, and the component mounting device 14 is a prohibited section, and a section including a plurality of component mounting apparatuses 16 is also a prohibited section. In other words, the portion other than the portion set as the prohibited section is set as the allowable section.
[0016]
Substrate identification code readers (hereinafter referred to as “readers”) 30, 32, 34, and 36, which are substrate identification information readers, are provided at the entrance and the exit of the prohibited sections, respectively. It is a monitoring section. The reading devices 30 and 34 provided on the entrance side of each prohibited section and the reading devices 32 and 36 provided on the exit side have the same configuration, and are substrates that are identification information recording units provided on the circuit board 40. The board identification information (information relating to the circuit board 40) of the identification code 42 is read. As shown in FIG. 3, the circuit board 40 is provided with a board identification code 42 at least in one place. In the board identification code 42, a board ID representing data (type of circuit board 40, manufacturer, production lot number, individual number, etc.) that can identify each circuit board 40 is recorded as board identification information. The substrate identification code 42 is preferably a bar code or a two-dimensional code. In the present embodiment, description will be made assuming that the substrate identification code 42 is represented by a two-dimensional code. The circuit board 40 is provided with a plurality of board reference marks (not shown) together with the board identification code 42. Although not shown, the circuit board 40 is also provided with a board ID that can identify each circuit board 40 so that an operator can read it visually. The board ID is preferably represented by a combination of a plurality of Arabic numerals and a plurality of alphabets.
[0017]
The identification information reading device can include, for example, an imaging device including a barcode reader that reads a barcode, an ID decoder that is a dedicated device for reading a two-dimensional code, or a camera that images a two-dimensional code. In the present embodiment, the reading devices 30 to 36 include an ID decoder 44 (see FIG. 4). The reading devices 30 to 36 are also provided with a pair of conveyors 46 serving as a substrate transporting device that transports the circuit board 40 supplied from the upstream side of the line, and a driving motor 47 serving as a driving source. When the arrival of the circuit board 40 is detected by the sensor 48, the circuit board 40 is sent to a predetermined position and is positioned and held by a positioning and holding device (not shown). In a state where the circuit board 40 is positioned and held, the board identification code 42 of the circuit board 40 and the ID decoder 44 are opposed to each other, and the board identification code 42 can be read.
[0018]
As conceptually shown in FIG. 2, the adhesive application device 12 includes a pair of conveyors 50 and a drive motor 52 as a drive source as a substrate transfer device. In addition, the component mounting device 14 is a main conveyor 54, an in-conveyor 55 that carries the circuit board 40 into the main conveyor 54, and an out-conveyor 56 that carries out the circuit board 40 after work from the main conveyor 54, as board transfer devices. And drive motors 58, 59, and 60 as drive sources for independently driving the conveyors 54, 55, and 56, respectively. When it is detected that the circuit board 40 completed in the adhesive application device 12 is sent to the downstream side and a new circuit board 40 can be received, the substrate identification code 42 is read by the reading device 30. The drive motor of each conveyor is controlled so that the circuit board 40 is sent from the reader 30 to the adhesive application device 12. Substrate conveyance from the adhesive application device 12 to the conveyance device 22, substrate conveyance from the conveyance device 22 to the in-conveyor 55 of the electronic circuit component mounting device 14, substrate conveyance from the in-conveyor 55 to the main conveyor 54, and out from the main conveyor 54 As for the substrate conveyance to the conveyor 56 and the substrate conveyance from the out conveyor 56 to the reading device 32, the circuit board can be sent to the downstream side if it can be discharged on the upstream side and can be received on the downstream side. To be controlled.
[0019]
The component mounting device 16 includes a pair of conveyors and a drive motor as a drive source as a board transfer device. The board transfer from the reading device 34 to the component mounting device 16, the board transfer from the component mounting device 16 to the downstream component mounting device 16, and the board transfer from the component mounting device 16 to the reading device 36 are the same as described above. If the circuit board can be transported on both the upstream side and the downstream side, control is performed so that the circuit board is sent to the downstream side.
[0020]
As shown in FIG. 4, the reading devices 30 to 36 are connected to a host computer 70 of the system control device 20. The host computer 70 includes a CPU 72, a ROM 74, a RAM 76, and a bus 78 for connecting them. The bus 78 is further connected to an input / output interface 80. The input / output interface 80 is connected to the ID decoder 44, the substrate sensor 48, and the like via a control circuit 81, and to the drive motor 47 and the like via a drive circuit 82.
[0021]
Each computer of the control device of the work device such as the screen printing device 10, the adhesive coating device 12, the component mounting device 14, 16 is connected to the host computer 70, and between the host computer 70 and the computer of each of the work devices. The exchange of information, etc., the supply of commands, etc. are performed, and the necessary data is supplied to the computers of the respective work devices. The ROM 74 of the host computer 70 stores a work control program for controlling the work on the board such as the screen printing device 10, the adhesive application device 12, the component mounting devices 14 and 16, and the reading devices 30 to 36. A board identification information reading program, a board order change determination program, and the like described later are also stored in the ROM 74 of the host computer 70. The computer of each work device reads the information (work control program, data, etc.) necessary for the current work from the above program and executes the work.
[0022]
In the RAM 72 of the host computer 70, production history information such as supplier identification information and parts information is accumulated and stored. As the production history information, in the present embodiment, the component ID as component information mounted on the circuit board 40 is supplied to the component mounting apparatuses 14 and 16, etc. using the board ID of the circuit board 40 as a key ( Mounted) supplier ID, supply device identification ID that can identify the supply device that supplied the component, holder ID that can identify the holder that is held to mount the component on the circuit board, and the holder Is stored, and the head ID of the holding head that has been moved while holding is stored. Only some of these may be stored, and further information may be stored.
[0023]
The reading of the board identification code 42 of the circuit board 40 by the reading devices 30 and 34 and the reading of the board identification code 42 by the reading devices 32 and 36 will be described. Since the reading devices 30 and 34 on the entrance side of the two prohibited sections and the reading devices 32 and 36 on the exit side are respectively controlled in the same manner, here the reading on the entrance side in the upstream prohibited section is performed. The reading operation by the device 30 and the reading device 32 on the outlet side will be described representatively. The reading on the entrance side is executed based on the reading program shown in the flowchart in FIG. 5, and the reading on the exit side is executed based on the reading program shown in the flowchart in FIG. These reading programs are stored in the ROM 74 of the host computer 70.
[0024]
The reading of the board identification code 42 on the entrance side will be described with reference to the flowchart of FIG. First, in step 10 of the flowchart of FIG. 5 (hereinafter abbreviated as “S10”. The other steps are also abbreviated in the same manner), it is awaited that the circuit board 40 is conveyed to the reader 30 on the entrance side. If the arrival of the circuit board 40 is detected by the board sensor 48, the determination in S10 is YES, the board identification code 42 is read by the ID decoder 44 in S11, and the input board ID buffer memory of the host computer 70 is read in S12. The substrate ID is temporarily stored. The substrate IDs are stored in the order of loading. In S13, the input board ID is recorded as production history information in the RAM 72 of the host computer 70.
[0025]
Based on the loading order of the circuit boards 40 stored in the host computer 70, each operation such as adhesive application in the adhesive application device 12 located downstream of the reading device 30 and component mounting in the component mounting device 14 is controlled. Is done. Then, in the RAM 72 of the host computer 70, production history information such as supplier identification information and parts information acquired in each of the above operations is recorded using the input side board ID as a key.
[0026]
The circuit board 40 having completed the above operations is transported to the reading device 32 provided on the exit side of the prohibited section. In the reading device 32, the board identification code 42 is read by executing the exit side reading program shown in FIG. First, in S20, it is determined whether or not the number of substrate IDs stored in the discharged substrate ID buffer memory is equal to or greater than a set value. This set value can be changed to any value. If the determination in S20 is YES, in S21, the operation of the working devices in the prohibited section (in this case, the adhesive application device 12 and the component mounting device 14) is stopped. Each step of S20 and S21 is not necessarily indispensable, but if the number of substrate IDs stored in the discharge substrate ID buffer memory becomes too large before processing such as an order change determination program described later proceeds to some extent, Since subsequent processing such as an order change determination program becomes difficult, it is desirable to temporarily stop the operation of the working device. If the substrate IDs in the buffer memory are sequentially erased and the number thereof is less than the set value, the determination in S20 is NO, and it is determined in S22 whether the operation of the work apparatus is stopped. If the operation has been stopped until then, the determination in S22 is YES, the work device that has been stopped in S23 is restarted, and the steps after S24 are executed. If the determination in S20 is NO and the determination in S22 is NO, S24 is subsequently executed. In S24 to S26, similarly to S10 to S12 in the entrance side reading program, if the arrival of the circuit board 40 is detected and the determination in S24 is YES, the board ID code 42 is read by the ID decoder 44 in S25. In S26, the processed board IDs are stored in the discharge side board ID buffer memory of the host computer 70 in the discharge order.
[0027]
In the prohibited section, extraction and insertion of the circuit board 40 are prohibited, but it is still possible for an operator to perform at least one of extraction and insertion of the circuit board 40. In the present embodiment, the discharge order of the circuit boards 40 recorded as described above is compared with the input order, and if it is determined that there are portions that are different from each other in the order, the circuit board 40 is removed in the middle of the prohibited section. It is determined that the order of the circuit boards 40 has changed midway due to at least one of insertion and insertion. The order change monitoring program for monitoring the order change of the circuit board 40 in the prohibited section is represented by the flowcharts of FIGS. Note that the flowcharts of FIGS. 7 to 9 show the flowcharts of one order change monitoring program divided at a plurality of locations for the sake of space in the drawings. This order change monitoring program is stored in the ROM 74 of the host computer 70. In the present embodiment, the entrance-side reading program, the exit-side reading program, and the order change monitoring program are executed in parallel in a time-sharing manner.
[0028]
First, in S30 to S34, each flag F _R , F _S , F _T , F _P , F _N Whether or not is ON is determined, but NO is determined for the first time, and S35 is executed. In S35, it is determined whether or not there is a pair of substrate IDs on the entrance side and the exit side.
It is determined whether the input substrate ID and the output substrate ID to be compared with each other are read and stored in the buffer memory. If the board identification code 42 has not been read by any of the reading devices 30 and 32, the pair of board IDs are not prepared, the determination in S35 is NO, and one execution of this program is completed. . If there is a pair of substrate IDs, the determination in S35 is YES, and it is determined in S36 whether the substrate IDs are the same. If the determination in S36 is YES, the flag F in S37 _M It is determined whether or not is set to ON. This determination is NO this time, and the pair of IDs already compared in each buffer memory is deleted in S38, and one execution of this program is completed. If it is found that the input board ID and the discharge board ID are the same, the input board ID and the discharge ID stored in the buffer memory are sequentially deleted in the order of storage, and the production history information is changed. There is no.
[0029]
If at least one of the extraction and insertion of the circuit board 40 in the prohibited section is performed, the discharge order and the input order will be different, and the pair of board IDs to be compared will be different. When the pair of board IDs are different, information on the types of circuit boards included in both board IDs may be the same as or different from each other, but is prohibited when the types of circuit boards 40 are different. In the section, an adhesive is applied to a place that is not a normal application position by a working device including the adhesive application device 12 and the component mounting device 14 (component mounting device 16), or a component different from the plan is mounted on the circuit board 40. Since an erroneous operation such as being performed is performed and a defective circuit board may be generated, the operation of the working device in the prohibited section is stopped. When the determination of S36 is NO and the determination of whether or not the circuit boards of S40 are of the same type is also NO, the operation of the work device in the prohibited section is stopped in S41. . In S42, the operator is informed that the pair of board IDs are different and the types of the circuit boards are different, and the circuit board 40 in the prohibited section is checked for any erroneous work. If work is being done, it is required to take the necessary action to deal with it. This request is made, for example, by displaying on the monitor of the component mounting apparatus 14. Flag F at S43 _R Is turned ON, and in S44, the operator checks and the completion of necessary treatments is awaited. While the check operation or the like is not completed, the determination in S30 is YES, and S44 is repeatedly executed. The operator completes the work such as removing defective circuit boards by the worker or instructing each work device to re-work the circuit boards that are insufficient, and the operator inputs the work completion by operating the completion key, etc. Then, each work device that was stopped in S45 is restarted, and the flag F in S46. _R Is reset to OFF.
[0030]
On the other hand, when the pair of board IDs are different, but the type of the circuit board 40 is the same, the circuit board 40 cannot be erroneously operated, and the board work can be continued as it is. It is necessary to change the production history information. Therefore, if the determination in S36 is NO and the determination in S40 is YES, the operator is notified in S49 that the order of the circuit boards 40 in the prohibited section has changed. In the present embodiment, the fact that the order has changed is displayed on a monitor provided in the component mounting device 14 adjacent to the reading device 32 on the exit side. At the same time, at least one of buzzer sounding, lamp lighting, flashing, etc. is performed. Thus, if the order change is notified by the monitor of the component mounting device 14, the equipment cost can be reduced, but a monitor dedicated to the order change notification can also be provided in the reading device 32, for example.
[0031]
Subsequent to S49, in S50, the flag F _M Is determined to be ON, and if NO, in S51, the order data of the circuit board 40 whose order has been changed by at least one of extraction and insertion of the circuit board 40 is input to the operator. Required. This request is notified to the worker by, for example, displaying it on the monitor of the component mounting apparatus 14. The data includes the circuit board 40 having the discharge board ID determined to be different from the input board ID, and is the order of the board IDs of the circuit boards 40 in a certain section upstream from the circuit board 40, for example, When the discharge board ID determined to be different from the input board ID is read by the discharge side reading device 32, the circuit board 40 in the prohibited section (the code that has already been read on the input side) ) Substrate ID order. In S52, the flag F _N Is set to ON, and in S53, the operator waits for the input of the data in response to the request. For data input, for example, an input device of the component mounting device 14 may be used, or a dedicated input device may be provided. If there is no input, one execution of this program ends. In the next execution, F _N Is set to ON, the determination in S34 is YES, and the same execution is repeated until the determination in S53 is YES. If the operator inputs the above data and the determination in S53 is YES, then S54 The input data is stored in a buffer memory different from the input / output substrate ID buffer memory. In addition, the input substrate ID and the discharge substrate ID are compared as a pair of substrate IDs until then, but hereinafter, the substrate ID in the input data (abbreviated as “input substrate ID”). The comparison target is changed so as to be compared with the discharge board ID. Even if the comparison target is changed, the oldest input substrate ID and discharge substrate ID stored in the memory (the most downstream side in the substrate order) as in the case of comparison between the input substrate ID and the discharge substrate ID. Are positioned as a pair of substrate IDs. However, neither the compared input board ID or discharge board ID is erased.
[0032]
As described above, every time a new circuit board reaches the reading device 32 and a new discharge ID is obtained, the discharge ID is sequentially compared with the input board ID, and it is determined that all the input board IDs are correct. For example, the production history information is changed assuming that they are in the correct board order. Specifically, in S55, it is determined whether or not the input substrate ID is the same as the discharge substrate ID. If the determination is the same and the determination in S55 is YES, a flag F is determined in S56. _N , F _P Is reset to OFF and flag F _M Is set to ON. Then, one execution of this program is completed, but in the next execution, S30 to S34 are all NO, and in S35, the next ones that are the next to the input board ID and the discharge board ID compared last time exist. If it exists, it is determined in S36 whether the IDs are the same. If they are the same, the flag F in S37 _M It is determined whether or not is set to ON. Here, the flag F in S56 _M Is set to ON, the determination is YES, and it is determined in S57 whether or not the comparison has been completed for all the input board IDs. If it has not ended yet, the determination is no and one execution of the program ends. As described above, if the input board ID and the discharge board ID are the same, the comparison is sequentially performed by the number of the input board IDs. _M Is reset to OFF, and the counter value C (described later) is also reset to 0. In S59, the input board ID corresponding to the input board ID is rewritten to the input board ID among the production history information recorded in the order of the input board ID. Subsequently, in S60, the data of the input board ID is erased, and the input board ID and the discharge board ID corresponding to the input board ID are erased from the respective buffer memories. Further, the comparison target is returned from the input board ID and the discharge board ID to the original input board ID and the discharge board ID, and one execution of the program is completed. Therefore, when executing the program after passing through S60, the input board ID immediately after being replaced with the input board ID (upstream side) is compared with the corresponding discharge board ID.
[0033]
The above is an operation in the case where all the data input by the worker is correct, but it is not correct due to a memory difference of the worker, an input error, etc., and may be different from the actual discharge order. In that case, it is necessary to have the operator re-enter, but if the re-input is repeated many times, the work equipment continues to work on the board during that time, so the true order of the board is gradually grasped. It becomes difficult. Therefore, it is desirable to set the number of times that re-input can be performed, and if the number exceeds that number, the operation of the working device is stopped and the operator checks the board order. Therefore, if it is determined in S55 that the input board ID is different from the discharge board ID, it is determined in S70 whether or not the counter value C is greater than or equal to the set value, as shown in FIG. The counter value C is the number of times data can be re-input by the operator, and can be set to an arbitrary value. For example, considering the case where the set value is 2, re-input is allowed up to twice. If S70 is executed after the first input this time, the determination is no, and the operator is requested to re-input data in S71. In S72, the counter value C is incremented by 1, and in S73, the flag F _P Is set to ON, and one execution of the program ends. In the next execution, since S33 becomes YES, re-input by the operator is awaited in S53. If the data is re-input, in S54, the re-input data is already input and rewritten with the data stored in the buffer memory, and the substrate ID of the re-input data (hereinafter abbreviated as “re-input substrate ID”). Are compared with the discharge board ID.
[0034]
If it is determined in S55 that the re-input board ID and the discharge board ID are different, it is determined again in S70 whether or not the counter value C is equal to or larger than the set value. Since the re-input is still performed only once, the determination in S70 is NO and the second re-input is performed after S71. If this re-input board ID is also wrong, S70 Is YES, and the operation of the work device in the section including the prohibited section is stopped in S74. In S75, the operator is requested to check the actual board order. In S76, the flag F is checked. _T Is set to ON, the check completion is awaited in S77. As described above, the circuit board 40 is provided with a board ID that can be read visually by an operator, and the operator can visually check the board ID to accurately grasp the actual board order. . Also, check whether any of the circuit boards are being operated incorrectly, and if necessary, take measures such as eliminating defective circuit boards or instructing the re-production of the missing circuit boards. Do. Thereafter, if the check completion is input by a button operation or the like after inputting the check result, the determination in S77 becomes YES, and the substrate ID corresponding to the production history information is rewritten to the input data after the check in S78. .
Thereafter, in S79, the check result data is erased, and the corresponding input substrate ID and discharge substrate ID are also erased. In S80, flag F _T Is reset to OFF, the counter value C is reset to 0, and each work device is restarted in S81.
[0035]
As described above, even when the first input board ID and the discharge board ID are the same during the execution of S55, the second and subsequent input board IDs may be different from the discharge board ID. In this case, the determination in S36 is NO. If the type of the circuit board 40 is also different, the determination of S40 is NO, and S41 and subsequent steps are executed. If the type is the same, the determination of S40 is YES and S50 is executed. At this time, since the first input board ID and the discharge board ID are the same, the flag F in S56. _M Is set to ON, the determination in S50 is YES, and S90 and subsequent steps are executed. S90 to S101 are the same as the contents of each step of S70 to S81. However, the flag set to ON after the re-input request of S91 is flag F. _N The flag set to ON after the check request to the worker in S95 is flag F. _S The only difference is that the explanation is omitted.
[0036]
Although the forbidden section sandwiched between the readers 30 and 32 has been described above, monitoring of the extraction of the circuit board 40 in the prohibited section sandwiched between the readers 34 and 36 is similarly performed.
In this embodiment, since the prohibition section and the allowable section are provided on the work line for the substrate, the substrate can be freely extracted and inserted in the allowable section.
Readers 30 and 34 are provided at the entrance of each prohibited section where an operation corresponding to the board ID of each circuit board 40 needs to be performed. This is because the corresponding operation is performed. Therefore, the order of the circuit boards 40 may be changed within the allowable section, and the mental burden on the operator is reduced. In addition, in the present embodiment, the reading devices 32 and 36 are also provided at the exit of the prohibited section, the board ID of the circuit board 40 is read at the entrance and the exit, and the order of the circuit boards 40 changes within the prohibited section. It is monitored whether or not. If it is determined that the order change has occurred, the operator is required to input the substrate ID data of a certain section. If the data and the discharge substrate ID are the same, the input data is included in the production history information. The recorded substrate ID is rewritten and the production history information is correct.
[0037]
The management program according to the present invention includes an entrance side reading program, an exit side reading program, and an order change monitoring program. In the present embodiment, S11 and S12 of the entrance side reading program constitute an identification information reading step as an input order obtaining step, and S25 and S26 of the exit side reading program constitute an identification information reading step as an ejection order obtaining step. is doing. S36 of the order change monitoring program constitutes an order change determination step, and S49 of the program constitutes an order change notification step. Further, S41 of the order change monitoring program constitutes an operation stop step, and S51 constitutes a change information input request step. However, in this embodiment, S41 is not executed only when the determination in S36 is NO, and the operation of the device in the prohibited section is not stopped. Furthermore, the type of the circuit board 40 is different, and the circuit board 40 is stopped when the determination in S40 is NO. Therefore, S41 constitutes an operation stop step for stopping the operation of the device in the prohibited section when the order of the circuit boards 40 is changed and the types of the circuit boards whose order is changed are different from each other. Will be. S13 of the entrance side reading program constitutes a production history recording step in cooperation with a step of omitting illustration of recording supplier identification information, parts information, etc. using the input board ID as a key, and S59 and S78 of the order change monitoring program. Constitutes a production history information changing step which is a kind of treatment step.
[0038]
The reading devices 30 and 34 and the part that executes S11 and S12 in the host computer 70 constitute a loading order acquisition unit. The reading devices 32 and 36 and the part of the host computer 70 that executes S25 and S26 constitute a discharge order acquisition unit. The host computer 70 and the computers of the control devices of the adhesive application device 12 and the component mounting devices 14 and 16 connected thereto constitute a management unit. The portion of the host computer 70 that executes S36 of the order change monitoring program constitutes an order change determination unit, and the portion of the program that executes S49 constitutes an order change notification unit. In addition, the part that executes S41 of the order change monitoring program constitutes an operation stop part, the part that executes S51 constitutes a change information input request part, and S54 and S78 are production history information change parts as treatment parts. Is configured. In the host computer 70, the part that executes S13 of the reading program on the entrance side uses a production history recording unit in cooperation with a part that executes a step (not shown) for recording supplier identification information, parts information, etc. using the input board ID as a key. It is composed.
[0039]
In the management method for the substrate work line, the execution of the entrance side reading program S11, S12 constitutes the identification information reading step as the input order detection step, and the execution of the exit side reading program S25, S26 is the discharge as the identification information reading step. The order detection process is configured. Execution of S36 of the order change monitoring program constitutes an order change determination process, execution of S51 is a change order change notification process, execution of S41 is an operation stop process, execution of S51 is a change information input request process, and execution of S59 and S78 Each constitutes a production history information changing step as a treatment step. The process of recording the production history information such as the supplier identification information and the parts information in the RAM 72 of the host computer 70 as a key is included in the production history information recording process. is doing.
[0040]
Although the embodiments of the present invention have been described in detail above, this is merely an example, and the present invention includes the aspects described in the above [Problems to be Solved, Problem Solving Means and Effects]. As described above, the present invention can be implemented in various modifications and improvements based on the knowledge of those skilled in the art.
[Brief description of the drawings]
FIG. 1 is a front view conceptually showing an electronic circuit manufacturing line as an on-board work line according to an embodiment of the present invention.
FIG. 2 is a plan view conceptually showing the electronic circuit manufacturing line.
FIG. 3 is a plan view schematically showing a part of a circuit board in the present embodiment.
FIG. 4 is a block diagram showing a portion deeply related to the present invention in the system controller of the electronic circuit manufacturing line.
FIG. 5 is a flowchart showing an entrance side reading program which is a part of a program for managing the electronic circuit manufacturing line.
FIG. 6 is a flowchart showing an exit side reading program which is another part of a program for managing the electronic circuit manufacturing line.
FIG. 7 is a part of a flowchart showing an order change monitoring program which is still another part of the program for managing the electronic circuit manufacturing line.
FIG. 8 is a flowchart showing another part of the order change monitoring program.
FIG. 9 is a flowchart showing still another part of the order change monitoring program.
[Explanation of symbols]
10: Screen printing device 12: Adhesive application device 14, 16: Electronic circuit component mounting device 18: Reflow furnace 20: System control device 22, 24: Conveyance device 30, 32, 34, 36: Substrate identification code reading device 40: Circuit board 42: Board identification code 70: Host computer 74: ROM 76: RAM

Claims (12)

A part of the board work line formed by arranging a plurality of apparatuses including at least one board work apparatus from the upstream side to the downstream side is defined as a prohibited section, and another part is defined as a permitted section. A method for managing an on-board work line, which prohibits extraction and insertion, and permits extraction and insertion of a circuit board in an allowable section. Including a loading sequence detection step of detecting a loading sequence of circuit boards into the prohibited zone at the entrance of the prohibited zone, and controlling the devices in the zone based on the detected loading sequence in the prohibited zone. The method of managing a substrate-to-board work line according to claim 1. A loading sequence detection step for detecting the loading sequence of circuit boards into the prohibited zone at the entrance of the prohibited zone, a discharging sequence detection step for detecting the discharging order of circuit boards from the prohibited zone at the exit of the prohibited zone, and An order change determining step for determining whether or not the discharging order detected in the discharging order detecting step is different from the charging order detected in the charging order detecting step, and ordering the sections between the inlet and the outlet The method for managing an on-board work line according to claim 1, wherein the change monitoring section is used. Input that detects the order of input of circuit boards to the partial section at the entrance of at least a partial section of the counter-board work line in which a plurality of apparatuses including at least one counter-substrate working apparatus are arranged from the upstream side to the downstream side The order detection step, the discharge order detection step for detecting the discharge order of the circuit boards from the partial section at the exit of the partial section, and the discharge order detected in the discharge order detection step are And a sequence change determination step for determining whether or not the detected loading order is different, wherein the at least part section is set as an order change monitoring section. A substrate-to-substrate work line in which a plurality of devices including at least one substrate-to-substrate work device are arranged from the upstream side to the downstream side,
A loading order acquisition unit that is provided at an entrance of at least a section of the substrate work line and acquires a loading order of circuit boards into the section;
A management unit for managing at least the partial section based on at least the input order acquired by the input order acquisition unit;
A board-to-board work line comprising: a discharge order acquisition unit that is provided at an outlet of at least a part of the section and acquires a discharge order of circuit boards from the section. The on-board work line according to claim 5, further comprising an order change determination unit that determines whether or not the discharge order acquired by the discharge order acquisition unit is different from the input order acquired by the input order acquisition unit. 7. The on-board work according to claim 5 or 6, further comprising an order change notifying unit for notifying when the discharging order acquired by the discharging order acquiring unit is different from the charging order acquired by the charging order acquiring unit. line. When the discharge order acquired by the discharge order acquisition unit is different from the input order acquired by the input order acquisition unit, the operation of the substrate processing apparatus in the section where the order change of the counter substrate work line has occurred at least. The on-board work line according to claim 5, further comprising an operation stop unit that stops the operation. When the discharge order acquired by the discharge order acquisition unit is different from the input order acquired by the input order acquisition unit, at least one of removal and insertion of the circuit board that caused the order change to the operator 9. The on-board work line according to claim 5, further comprising a change information input request unit that requests input of information. 10. The on-board work according to claim 9, further comprising: a treatment unit that takes a necessary treatment for the circuit board existing in the at least part of the section based on information input in response to a request from the change information input request unit. line. Including a production history recording unit that records production history information of the circuit board in at least a partial section, and the treatment unit includes a production history information changing unit that changes the production history information recorded by the production history recording unit. The to-substrate work line according to claim 10. A program for managing, by a computer, at least a part of a substrate work line in which a plurality of devices including at least one substrate work apparatus are arranged from the upstream side to the downstream side,
A loading order acquisition step of acquiring a loading order of circuit boards into the section at the entrance of the at least some section;
A discharge order acquisition step of acquiring a discharge order of circuit boards from the section at the exit of the at least some section;
And a sequence change determination step for determining whether or not the discharge order acquired in the discharge order acquisition step is different from the input order acquired in the input order acquisition step. .

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