JP6442148B2 - Mounting related processing equipment - Google Patents

Description

  The present invention relates to a mounting related processing apparatus.

  Conventionally, as a mounting related processing device, when a mounting process is stopped, an operator selects a printed board type to be produced next from a current printed board type on a screen displayed on a display device. There has been proposed one that transmits a model name of a selected printed circuit board and a setup change command to all the electronic component mounting apparatuses in the mounting line (see, for example, Patent Document 1). With this equipment, even if there are multiple work devices in the board assembly / mounting line, it is possible to perform batch changeover of multiple work devices in response to a change in the board model, thereby reducing work manager's work. It is said that we can plan.

JP 2011-82464 A

  However, there may be a device that does not include an interface for connecting to a network for acquiring information, such as a belt conveyor for transporting a substrate and a substrate supply magazine, in the substrate assembly / mounting line. In such an apparatus, since the command cannot be received, for example, the operator may not be aware of the work of changing the setup, and thus the necessary work may not be performed.

  The present invention has been made in view of such a problem, and a main object of the present invention is to provide a mounting-related processing device that can more reliably execute work on a device that is not connected to a telecommunication line.

  The present invention adopts the following means in order to achieve the main object described above.

That is, the mounting related processing device of the present invention is
A management device that manages information on a mounting-related process related to a process of mounting a component on a board; an information acquisition unit that acquires information from the management device via a telecommunication line; and a process execution unit that executes the mounting-related process. A mounting-related processing device in a mounting processing system comprising: a mounting-related processing device having a non-connection processing device that executes the mounting-related processing without being connected to the management device via an electrical communication line;
An informing means for informing the worker of information;
Control means for notifying the notifying means of work information performed by an operator to a non-connection processing device that executes the mounting-related processing on the upstream side and / or a non-connection processing device that executes the mounting-related processing on the downstream side; ,
It is equipped with.

  In this apparatus, an unconnected processing apparatus that is connected to a management apparatus via an electric communication line and that performs mounting-related processing on the upstream side or the downstream side of the apparatus, and that is not connected to the electric communication line The work information performed by the worker is notified to the worker. That is, in this apparatus, for example, when information related to the mounting related process is acquired from the management apparatus, information to be performed on the non-connection processing apparatus is notified to the worker. The worker who has confirmed this will perform the work to be performed on the unconnected processing device. Therefore, it is possible to more reliably perform the operation for the device that is not connected to the telecommunication line. Here, the “electric communication line” may be, for example, a network (for example, a LAN) or a local connection (for example, a USB). The mounting-related processing device may be, for example, a mounting device that mounts components on a substrate, or a printing device that applies a predetermined coating agent (for example, a solder paste or an adhesive) to the substrate, which is required for the mounting process. It is good also as a hardening processing apparatus which hardens the coating agent apply | coated to the board | substrate. The notification means may be, for example, display means for notifying the worker of work information by image display, or may be voice output means for notifying the worker of work information by voice.

  In the implementation-related processing device of the present invention, the information acquisition unit acquires setup change information including information related to the change of the process execution unit in the next implementation-related processing from the management device, and the control unit When the work information related to the non-connection processing device is included in the replacement information, the work information may be notified to the notification means. In this way, it is possible to more reliably execute the change work in the setup change. For this reason, it is possible to perform the mounting-related process after the setup change more reliably.

  In the mounting related processing device of the present invention, the information acquisition means acquires setup change information including information relating to the change of the processing execution means in the next mounting related processing from the management device, and the control means includes the processing It may be determined whether or not the non-connection processing device needs to be changed in relation to the change of the execution means, and when the change is required, the notification means may notify the information regarding the change of the non-connection processing device as the work information. Good. In this way, it is possible to more reliably execute the change work in the setup change. For this reason, it is possible to perform the mounting-related process after the setup change more reliably.

  In the mounting related processing device of the present invention, the control means causes the processing execution means to execute the mounting related processing after informing the work information and obtaining a predetermined confirmation input from the worker. Also good. In this way, it is possible to start the mounting-related process more reliably based on the confirmation from the worker.

  In the mounting related processing device of the present invention, the non-connection processing device does not include a notification means for notifying an operator of information, and is connected to the mounting related processing device via an electric communication line, The control means may be configured to notify the work information and obtain a predetermined confirmation input from the worker, and then output an execution start command for the mounting related process to the non-connection processing device. In this way, after obtaining confirmation from the worker, it is possible to more reliably start the implementation-related processing.

  In the mounting related processing device of the present invention, the management device stores correspondence information in which the mounting related processing device is associated with the unconnected processing devices arranged around the mounting related processing device. The information acquisition unit may acquire the correspondence information from the management device, and the control unit may cause the notification unit to notify the work information based on the correspondence information. By so doing, work information relating to the non-connection processing device associated with the mounting-related processing device is notified using the correspondence information, so that the work on the non-connection processing device can be more reliably performed.

1 is a schematic explanatory diagram of a mounting system 10. FIG. FIG. 3 is a block diagram showing the configuration of each device of the mounting system 10. The flowchart which shows an example of a subunit | mobile_unit registration process routine. Explanatory drawing which shows an example of the subunit | mobile_unit registration screen 40. FIG. The flowchart which shows an example of a setup change process routine. Explanatory drawing which shows an example of the setup change instruction | indication screen 50. FIG. Explanatory drawing which shows an example of the change screen 60 classified by apparatus.

  Next, modes for carrying out the present invention will be described with reference to the drawings. FIG. 1 is a schematic explanatory diagram of the mounting system 10. FIG. 2 is a block diagram illustrating the configuration of each device of the mounting system 10. The mounting system 10 includes a supply device 12 for supplying the substrate S (see FIG. 2), a printing device 13 for executing a printing process for printing solder on the substrate S supplied from the supply device 12, and components on the substrate S. And a mounting apparatus 14 that executes a mounting process to be mounted. In addition, the mounting system 10 includes a connection conveyor 15 that transports the substrate S from the mounting device 14 to the curing furnace 16, a curing furnace 16 that performs a reflow process on the substrate S, and a storage device 17 that stores the substrate S after reflow. And a management computer 80 for managing information. As shown in FIG. 2, the printing device 13, the mounting device 14, and the management computer 80 are connected to a LAN 11 as a network (electric communication line), and can exchange information. The mounting system 10 includes, for example, devices that sequentially perform mounting-related processing related to processing for mounting components on the substrate S, such as substrate S supply processing, conveyance processing, solder printing processing, component placement processing, reflow processing, and accommodation processing. It is configured as a connected production line. Among the devices constituting the mounting system 10, the supply device 12, the connecting conveyor 15, the curing furnace 16, and the storage device 17 are not connected to the LAN 11 and cannot be exchanged with the management computer 80. Configure. The printing device 13 and the mounting device 14 constitute a mounting-related processing device that can exchange information with the management computer 80.

  The supply device 12 includes a magazine that accommodates a plurality of substrates S. The supply device 12 can be mounted with a plurality of types of magazines having different sizes, and is configured to be able to supply a plurality of types of substrates. The operator manually changes the magazine or the width of the conveyor that conveys the substrate S in accordance with the change of the substrate S to be manufactured. In addition, the supply apparatus 12, the connection conveyor 15, and the storage apparatus 17 are not provided with the display part which displays the various information of an apparatus.

  The printing device 13 is a device that applies (prints) solder to the lower substrate S through the pattern hole by pressing the solder into the pattern hole formed in the screen mask using a squeegee. As shown in FIG. 2, the printing apparatus 13 includes a controller 21 having a CPU 22 for controlling the entire apparatus, a print processing unit 23 having a squeegee and a screen mask for executing a printing process, a display unit 25, and an operation unit. An operation panel 24 including a unit 26 and a communication unit 28 that performs bidirectional communication with an external device connected to the LAN 11 are provided. The display unit 25 is configured as a display that displays various types of information and notifies the operator of the information. The operation unit 26 includes a touch panel and input keys for an operator to input various commands. In addition, the printing apparatus 13 includes an automatic setup change mechanism that can automatically change the conveyor width to a lane width suitable for the next production board S based on a mounting-related job from the management computer 80. The printing device 13 is electrically connected to the supply device 12 through a local communication cable, and outputs a payout signal for the substrate S to the supply device 12 side. Receiving this, the supply device 12 executes a process of supplying the substrate S to the printing device 13 side.

  The mounting device 14 is a device that arranges (mounts) components at predetermined positions on the substrate S. The mounting process includes a process of placing, mounting, inserting, joining, and adhering components on a substrate. As shown in FIG. 2, the mounting apparatus 14 includes a controller 31 that has a CPU 32 and controls the entire apparatus, a head that collects components, and a transport unit that transports a substrate S, and performs a mounting process. The unit 33 includes an operation panel 34 including a display unit 35 and an operation unit 36, and a communication unit 38 that performs bidirectional communication with an external device connected to the LAN 11. The display unit 35 is configured as a display that displays various types of information and notifies the operator of the information. The operation unit 36 includes a touch panel and input keys for an operator to input various commands. Further, the mounting apparatus 14 includes an automatic setup change mechanism that can automatically change the conveyor width to a lane width that matches the width of the next production board S based on a mounting-related job from the management computer 80.

  The connection conveyor 15 is a device that conveys the substrate S supplied from the mounting device 14 to the curing furnace 16. The operator manually changes the width of the conveyor that conveys the substrate S in accordance with the change of the substrate S to be manufactured.

  The curing furnace 16 is an apparatus that electrically connects and fixes each component P on the substrate S by melting the solder by heating the substrate S on which the component P is disposed on the solder, and then cooling it. The curing furnace 16 includes a heating chamber 63 that includes a heater and accommodates the substrate S, and a control unit that controls the heater.

  The storage device 17 is a device that performs a process of sequentially placing the components P on the reflowed substrate S on a shipping tray. The storage device 17 includes a first storage unit that stores a shipping tray, a second storage unit that stores the tray after the substrate S is mounted, and a moving unit that mounts the substrate S on the tray. ing.

  The management computer 80 is a computer that manages information of each device of the mounting system 10. As shown in FIG. 1, the management computer 80 includes a CPU 81, a ROM 83, a RAM 84, and the like, which controls the entire apparatus, an HDD 85 that stores various application programs and various data files, and an external device connected to the LAN 11. A communication unit 86 that performs bidirectional communication with the device. In addition, the management computer 80 includes an input device 87 such as a keyboard and a mouse for an operator to input various commands, and a display 88 for displaying various information. The HDD 85 stores a mounting related job 85a, correspondence information 85b, model information 85c, setup change information 85d, and the like. The mounting related job 85a includes mounting related processing (for example, substrate S supply processing, substrate S transport processing, substrate S printing processing, component placement processing on the substrate S, substrate S reflow processing, and substrate S accommodation. Information including conditions for executing the processing). For example, in the mounting job 85a of the mounting apparatus 14, conditions for manufacturing various substrates S, such as component type information, an arrangement location where components are arranged on the substrate S, an arrangement order, and information on a collecting unit (nozzle, etc.) that collects components. including. The correspondence information 85b is a device connected to the LAN 11 that performs processing related to mounting processing (mounting related processing device) as a parent device, and a device that is not connected to the LAN 11 and performs mounting related processing (unconnected processing device) as a child device. This is information associated with each other. In addition, although it demonstrates for the sake of convenience as a main | base station and a subunit | mobile_unit here in view of the master-slave relationship, there is no meaning in particular and it is only necessary for each apparatus to be matched. The model information 85c correlates items that need to be changed in the mounting-related processing (also referred to as setup change items) with changes in the model name, model number, and board type to be manufactured. Information. The mounting system 10 can incorporate various devices from different manufacturers, and the model information 85c is configured as a database of these devices that can be incorporated. The setup change information 85d includes information related to the change of the unit (for example, the print processing unit 23 or the mounting processing unit 33) in the next mounting related processing. The setup change information 85d is created by the CPU 82 before the substrate S is newly produced.

  Next, the operation of the mounting system 10 of the present embodiment configured as described above, first, the process of registering the parent device and the child device in the correspondence information 85b will be described. FIG. 3 is a flowchart showing an example of a slave unit registration processing routine executed by the CPU 82 of the management computer 80. This routine is stored in the HDD 85 of the management computer 80, and is executed by a start instruction from the operator. In the mounting system 10, devices of different manufacturers may be arranged as a manufacturing line. In such a case, there is a case where the devices cannot be linked due to a difference in the interface of each device. In addition, the mounting system 10 includes a simple device that does not include a display unit or a communication unit, such as a connecting conveyor 15. In the mounting system 10 of the present invention, a device connected to the management computer 80 is used as a master unit, a slave unit is registered in the master unit, and information on the slave unit is displayed on the master unit. It is responsible for cooperation.

  When this routine is started, first, the CPU 82 displays a slave unit registration screen on the display 88 (step S100). FIG. 4 is an explanatory diagram showing an example of the slave unit registration screen 40. The slave unit registration screen 40 includes a master unit designation field 42 for designating a master unit device, a slave unit designation column 44 for designating a slave unit device, a registration key 46 that is pressed when input is confirmed, and a key that is pressed when input is completed. An end key 48 and the like are arranged. In the slave unit registration screen 40, the master unit designation column 42 and the slave unit designation column 44 are configured such that a device can be selected by a pull-down menu using the model information 85c. Further, when a plurality of mounting systems 10 are provided in the factory, the production line is selected by switching tabs on the slave unit registration screen 40. The operator first operates the cursor 41 to select a production line (mounting system 10), selects a device connected to the LAN 11 to be a parent device in the parent device designation column 42, and enters a child device designation column 44. A device that is not connected to the LAN 11 to be a slave is selected. At this time, the worker may set a device near the child device and closest to the child device as the parent device in order to obtain work information and facilitate work. Then, the operator operates the cursor 41 and presses the registration key 46. The CPU 82 acquires information on the parent device from the contents input on the child device registration screen 40 (step S110), and acquires information on the incorporated device (child device) (step S120). Then, the CPU 82 associates the parent device with the child device and registers them in the correspondence information 85b (step S130), and determines whether there is a next device to be registered (step S140). In this determination, it is assumed that there is no next device to be registered when the end key 48 is pressed. When there is a next device to be registered, the CPU 82 executes the processing after step S100, and when there is no next device to be registered, this routine is ended as it is. As described above, the management computer 80 manages the correspondence between the parent device and the child device using the correspondence information 85b.

  Next, in the mounting system 10, after the production of the previous substrate S is completed, before the production of the next substrate S is started, so-called setup change processing for changing the working conditions of each apparatus will be described. FIG. 5 is a flowchart illustrating an example of a setup change processing routine executed by the printing device 13 and the mounting device 14 of the mounting system 10. Here, it is assumed that there is correspondence information 85b in which the master device is the printing device 13 and the slave device is registered as the supply device 12, and the setup change operation of the printing device 13 will be described for convenience. In the mounting system 10, the correspondence information 85 b includes, as indicated by the dotted arrows in FIG. 2, registration with the printing device 13 as the parent device and the supply device 12 as the child device, and the most downstream mounting device 14 as the parent device. It is assumed that there is a registration that uses the connecting conveyor 15, the curing furnace 16, and the storage device 17 as slave units. This setup change processing routine is stored in the HDD of the printing apparatus 13 and is executed by the CPU 22 of the controller 21 after the production of the previous substrate S is completed.

  When this routine is started, the CPU 22 first acquires a mounting related job and setup change information from the management computer 80 (step S200). The mounting-related job and the setup change information are acquired by the management computer 80 using the mounting-related job 85a and the correspondence information 85b via the communication unit 28. Based on the mounting-related job 85a, the management computer 80 creates setup change information including information related to the setup-related job executed by each device and the setup change processing required by that device when this mounting-related job is executed. To do. At this time, based on the correspondence information 85b, the management computer 80 creates setup change information including information on the slave unit for the device (master unit) in which the slave unit is registered. For example, when the parent machine and the child machine have a common unit that requires a setup change, the management computer 80 creates setup change information including information to that effect. Examples of such a common unit include a conveyor unit that transports the substrate S in accordance with the width of the substrate S. In addition, when only the slave unit includes a unit that requires a setup change, the management computer 80 creates setup change information including a message for changing the unit as change information for each device. In addition, when a plurality of such slave unit setup changes are necessary, setup change information including a plurality of device-specific change information is created. Examples of such a special unit include a magazine of the supply device 12, a heater of the curing furnace 16, and a moving unit of the storage device 17.

  When acquiring the mounting-related job and the setup change information, the CPU 22 executes setup change processing based on the setup change information (step S210). For example, when the widths of the previous substrate S and the next substrate S are different, the conveyor width is automatically changed by the automatic setup change mechanism. In addition, when a worker's work is required, the work content is displayed, and after an input indicating that the work is completed, the process proceeds to the mounting process. Examples of the work contents include replacement of a screen mask and replacement of a backup plate that supports the substrate S. After the setup change process in this device is completed, the CPU 22 determines whether or not there is a slave device registered with the own device as the master device (step S220). This determination is made based on whether or not information indicating that is included in the setup change information. When there is no registered child device, the CPU 22 assumes that the preparation for the mounting related process (here, the printing process) is completed (step S310), and ends this routine. After completing the preparation for the mounting related process, the CPU 22 outputs a payout signal to the supply device 12 and starts the production process of the substrate S.

  On the other hand, when there is a registered child device in step S220, the CPU 22 sets a child device to be replaced (step S230). In this setting, when a plurality of slave units are registered, a device corresponding to a predetermined priority (for example, a device on the upstream side of the mounting related process) is set as the slave unit. Next, the CPU 22 determines whether or not there is a unit that requires a setup change process similar to that of the parent device (here, the printing device 13) (step S240). As a setup change process similar to the master unit, there is, for example, a process for changing the width of the conveyor unit that conveys the substrate S. When there is a setup change process similar to that of the master unit, the CPU 22 notifies the operator of the setup change contents as work information (step S250). The notification of the work information to the worker is performed by displaying a screen including the contents on the display unit 25 of the operation panel 24. At this time, a warning lamp may be turned on or a sound such as a buzzer may be notified. FIG. 6 is an explanatory diagram illustrating an example of the setup change instruction screen 50. On the setup change instruction screen 50, a work information display section 52 for displaying work information, a confirmation input display section 54 for prompting confirmation input after work, and the like are arranged. An operator who confirms the setup change instruction screen 50 performs setup change processing work in the slave unit. When the operator completes the setup change work, the operator performs confirmation input on the operation unit 26 to the effect that the work is finished. Next, the CPU 22 determines whether or not there is a confirmation input (step S260). If there is no confirmation input, the CPU 22 stands by. On the other hand, when there is a confirmation input, the CPU 22 repeatedly executes the processes after step S240. That is, the CPU 22 determines whether or not there is another unit that requires the same setup change process as that of the master unit. When such a unit exists, the CPU 22 notifies the operator of the contents of the setup change.

  On the other hand, in step S240, if the slave unit does not have a unit that requires the same setup change processing as that of the master unit, the CPU 22 determines whether or not the setup change information that should be notified to the operator is included in the setup change information. (Step S270). When the apparatus-related change information to be notified to the worker is included in the mounting-related job, the CPU 22 notifies the worker of the message as work information (step S280). The notification of the work information to the worker is performed by displaying a screen including the contents on the display unit 25 of the operation panel 24. At this time, a warning lamp may be turned on or a sound such as a buzzer may be notified. FIG. 7 is an explanatory diagram illustrating an example of the device-specific change screen 60. The device-specific change screen 60 includes a work information display unit 62 that displays work information, a confirmation input display unit 64 that prompts confirmation input after work, and the like. The worker who has confirmed the device-specific change screen 60 performs a setup change processing operation in the slave unit. When the operator completes the setup change work, the operator performs confirmation input on the operation unit 26 to the effect that the work is finished. Next, the CPU 22 determines whether or not there is a confirmation input (step S290). If there is no confirmation input, the CPU 22 stands by. On the other hand, when there is a confirmation input, the CPU 22 repeatedly executes the processes after step S270. That is, the CPU 22 determines whether other change information for each device to be notified to the worker is included in the setup change information, and if there is such information, notifies the worker of the message. The master unit can determine whether or not a change is required for a slave unit (for example, a conveyor unit that transports the substrate S) that performs the same processing as the master unit. On the other hand, the parent device cannot determine whether or not it is necessary to change a unit (for example, a supply magazine) of a child device that does not exist in the parent device. Here, when the device-related change information is included in the mounting-related job, the device-specific change information message is simply displayed until a confirmation input is received from the operator. In this way, it is possible to allow the operator to perform the setup change work on the slave unit without managing what unit the slave unit includes on the master unit side.

  On the other hand, when other change information for each device to be notified to the worker is not included in the setup change information, such as when all information is notified in step S270, the CPU 22 notifies the operator of the contents of the setup change processing. It is determined whether or not there is another slave unit that has not been performed (step S300). When there are other slave units, the CPU 22 repeatedly executes the processes after step S230. That is, in step S230, the CPU 22 sets a slave unit that should notify the operator of the contents of the setup change process, and notifies the operator of the message of the setup change contents and the device-specific change information as work information. On the other hand, when there is no other slave unit in step S300, the CPU 22 assumes that the preparation for the mounting related process is completed in step S310, and ends this routine. After completing the preparation for the mounting related process, the CPU 22 outputs a payout signal to the supply device 12 and starts the production process of the substrate S.

  Here, the correspondence between the components of the present embodiment and the components of the present invention will be clarified. The communication unit 28 and the communication unit 38 of the present embodiment correspond to the information acquisition unit of the present invention, the print processing unit 23 and the mounting processing unit 33 correspond to the process execution unit, and the display unit 25 and the display unit 35 serve as the notification unit. The CPU 22 and the CPU 32 correspond to the control means. In addition, the LAN 11 corresponds to an electric communication line, the printing device 13 and the mounting device 14 correspond to mounting-related processing devices, and the supply device 12, the connecting conveyor 15, the curing furnace 16, and the storage device 17 correspond to non-connecting processing devices. The management computer 80 corresponds to a management device.

  According to the printing apparatus 13 described above, the operator is connected to the management computer 80 via the LAN 11, and an operator is provided to the supply apparatus 12 (non-connection processing apparatus) that executes the mounting-related processing on the upstream side of the apparatus. The work information regarding the setup change process to be performed is notified to the worker. The worker who has confirmed this performs the setup change work to be performed on the supply device 12. Therefore, it is possible to more reliably perform work on devices that are not connected to the LAN 11. Further, the CPU 22 acquires setup change information including information related to the change of the print processing unit 23 in the next mounting related process from the management computer 80, and when the setup change information includes work information related to the supply device 12, Since this work information is notified, the change work in the setup change can be executed more reliably. For this reason, it is possible to perform the mounting-related process after the setup change more reliably. Further, the CPU 22 determines whether or not the supply device 12 needs to be changed in connection with the change of the print processing unit 23, and notifies the work information when the change is necessary, so that the change work in the setup change can be performed more reliably. Can be executed. For this reason, it is possible to perform the mounting-related process after the setup change more reliably. Furthermore, the CPU 22 notifies the work information and causes the print processing unit 23 to execute the mounting related process after obtaining a predetermined confirmation input from the worker. Therefore, based on the confirmation from the worker, the mounting related process is performed. Can be started more reliably. Further, the supply device 12 does not include a unit for notifying the worker of information, and is connected to the printing device 13 via an electric communication line, and the CPU 22 has acquired a predetermined confirmation input from the worker. Since the payout signal is output to the supply device 12 later, the mounting-related processing can be started more reliably after obtaining confirmation from the operator.

  It should be noted that the present invention is not limited to the above-described embodiment, and it goes without saying that the present invention can be implemented in various modes as long as it belongs to the technical scope of the present invention.

  For example, in the above-described embodiment, it has been described that the parent machine notifies the worker of information on the child machine in the setup change work. However, the work information to be notified is not limited to the setup change work. For example, any work may be performed as long as information is obtained from the management computer 80 to work on the unconnected processing apparatus via the LAN 11 and this is notified to the worker. Examples of such work information include periodic replacement work of parts, maintenance work, cleaning work in the apparatus, and the like.

  In the above-described embodiment, the management computer 80 and the printing apparatus 13 are described as being connected via the LAN 11, but are not particularly limited as long as they are electronic communication lines, and may be a local connection other than the network (for example, USB). . In the above-described embodiment, the printing device 13 is a master device and the supply device 12 is a slave device. However, the present invention is not limited to this. The master device is a mounting device 14, the slave device is a connecting conveyor 15, and curing is performed. One or more of the furnace 16 and the storage device 17 may be used. Even in this case, the same effect as that of the above-described embodiment can be obtained.

  In the above-described embodiment, the work information is notified to the worker by image display. However, it is only necessary that the work information can be notified to the worker. For example, the work information is notified to the worker by voice. Also good. Even in this case, the same effect as that of the above-described embodiment can be obtained.

  In the above-described embodiment, it has been described that the mounting-related job and the setup change information are transmitted to the printing device 13 and the mounting device 14. However, the present invention is not limited to this. For example, the correspondence information 85b is output to the mounting-related processing device. Based on this, it is good also as what recognizes a subunit | mobile_unit by the mounting related processing apparatus side, and alert | reports work information to an operator. By so doing, work information relating to the non-connection processing device associated with the mounting-related processing device is notified using the correspondence information, so that the work on the non-connection processing device can be more reliably performed. In the embodiment described above, since the setup change information 85d created based on the correspondence information 85b is used, it can be said that the CPU 22 indirectly reports the work information based on the correspondence information 85b.

  The present invention can be used for an apparatus for performing a mounting related process for arranging components on a substrate.

DESCRIPTION OF SYMBOLS 10 Mounting system, 11 LAN, 12 Supply apparatus, 13 Printing apparatus, 14 Mounting apparatus, 15 Connection conveyor, 16 Curing furnace, 17 Storage apparatus, 21 Controller, 22 CPU, 23 Print processing unit, 24 Operation panel, 25 Display part, 26 operation unit, 28 communication unit, 31 controller, 32 CPU, 33 mounting processing unit, 34 operation panel, 35 display unit, 36 operation unit, 38 communication unit, 40 slave unit registration screen, 41 cursor, 42 parent unit designation field, 44 Slave unit designation column, 46 Registration key, 48 End key, 50 Step change instruction screen, 52 Work information display section, 54 Confirmation input display section, 60 Device-specific change screen, 62 Work information display section, 63 Heating room, 64 Confirmation Input display unit, 80 management computer, 81 controller, 82 CPU, 83 ROM, 4 RAM, 85 HDD, 85a mounted job, 85b corresponding information, 85c model information, 85d stage replacement information, 86 a communication unit, 87 input device, 88 display, S substrate.

Claims (7)

A management device that manages information on a mounting-related process related to a process of mounting a component on a board; an information acquisition unit that acquires information from the management device via a telecommunication line; and a process execution unit that executes the mounting-related process. A mounting-related processing device in a mounting processing system comprising: a mounting-related processing device having a non-connection processing device that executes the mounting-related processing without being connected to the management device via an electrical communication line;
An informing means for informing the worker of information;
Work performed by the management device, which is information performed by a worker on a non-connection processing device that executes the mounting-related processing on the upstream side and / or a non-connection processing device that executes the mounting-related processing on the downstream side. Control means for informing the informing means on behalf of the non-connection processing device; and
A mounting-related processing device.   The control means informs the work information for the unconnected processing apparatus to the notifying means of the mounting related processing apparatus, and after obtaining a predetermined confirmation input for the work information from the worker, The implementation-related processing apparatus according to claim 1, wherein the processing execution unit causes a process to be executed. The non-connection processing device does not include a notification means for notifying information to an operator, and is connected to the mounting-related processing device via an electric communication line,
Wherein the control unit, the to broadcast the work information, after obtaining the predetermined confirmation input from the operator, and outputs the execution start command of the mounting related process to the non-connection processing apparatus, according to claim 1 or 2 The mounting related processing device described in 1. A management device that manages information on a mounting-related process related to a process of mounting a component on a board; an information acquisition unit that acquires information from the management device via a telecommunication line; and a process execution unit that executes the mounting-related process. A mounting-related processing device in a mounting processing system comprising: a mounting-related processing device having a non-connection processing device that executes the mounting-related processing without being connected to the management device via an electrical communication line;
An informing means for informing the worker of information;
Control means for notifying the notifying means of work information performed by an operator to a non-connection processing device that executes the mounting-related processing on the upstream side and / or a non-connection processing device that executes the mounting-related processing on the downstream side; With
The non-connection processing device does not include a notification means for notifying information to an operator, and is connected to the mounting-related processing device via an electric communication line,
The control means causes the work information to be notified, and after obtaining a predetermined confirmation input from the worker, causes the implementation-related process execution start command to be output to the unconnected processing device.
Mounting related processing equipment. The information acquisition unit acquires setup change information including information related to the change of the process execution unit in the next implementation-related process from the management device,
Wherein, said when the stage replacement information wherein is included the work information on the non-connection processing apparatus is informed of the working information to the notification means, according to any one of claims 1-4 Mounting related processing equipment. The information acquisition unit acquires setup change information including information related to the change of the process execution unit in the next implementation-related process from the management device,
The control unit determines whether or not the non-connection processing device needs to be changed in relation to the change of the process execution unit, and when the change is necessary, information on the change of the non-connection processing device is used as the work information. The mounting related processing apparatus according to any one of claims 1 to 5 , wherein the means is notified. The management device stores correspondence information in which the mounting related processing device is associated with the non-connection processing device arranged around the mounting related processing device,
The information acquisition means acquires the correspondence information from the management device,
Said control means, said corresponding to notify the job information to said notification means on the basis of the information, mounting related processing apparatus according to any one of claims 1-6.

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