JP2020009035A - Production system, management device, program - Google Patents

Abstract

To reduce the workload of an operator when upgrading software.SOLUTION: A production system provides a specific function in cooperation with an inspection device (10) and a mounting device (20) consisting a production line (1) and a host computer (30) for managing these devices. The host computer is configured to: collect function information implemented in software from the inspection device and the mounting device; extract common function information used in the software of a management device, the inspection device, and the mounting device; and control a software function to make the common function from an extracted result valid; notify the inspection device and the mounting device of a control signal indicating the common function, and control the function of the software so that the common function of the inspection device and the mounting device indicated by the control signal can be valid.SELECTED DRAWING: Figure 3

Description

  The present disclosure relates to a production system, a management device, and a program.

  In the production system, a production line is constructed by a plurality of processing devices, and the processing carried on the conveyed goods on the production line is performed step by step in each processing device. Each processing device is connected to a host computer, and the host computer manages the entire production line. The software of each processing device is upgraded in accordance with a defect correction of a program or addition of a new function. As a software version upgrade method, a method in which a host computer manages the timing of software version upgrade of each processing device is known (for example, see Patent Document 1).

WO 2015/121942

  In general, in a production system, when software is upgraded in a processing device, the software must be upgraded in a host computer. This is because there is no mechanism for checking the compatibility between the host computer and each processing device, and it is safer to upgrade the software at the same time. For this reason, even if only one of the software versions of the host computer and the processing device needs to be upgraded, it is necessary to upgrade the software version of the other software, which increases the work load for the operator. There was a problem.

  SUMMARY An advantage of some aspects of the disclosure is to provide a production system, a management device, and a program capable of reducing an operator's work load when upgrading software.

  A production system according to an embodiment of the present disclosure is a production system in which a plurality of processing devices that construct a production line and a management device that manages the plurality of processing devices cooperate to provide a specific function, wherein the management device A collection unit that collects function information implemented in software from the plurality of processing devices, an extraction unit that extracts function information common to the software of the own device and the software of the plurality of processing devices, and a common function from the extraction result. A control unit that controls a function of software to be enabled; and a notifying unit that notifies a control signal indicating a common function to the plurality of processing devices, wherein the plurality of processing devices are indicated by control signals. A control unit that controls software functions so that common functions to be used are enabled.

  According to the present disclosure, a common function of software is enabled between a plurality of processing devices and a management device. Since the valid function and the invalid function are shared for each device and the compatibility is confirmed, the software version needs to be upgraded in all the devices only when the update information of the valid function is included. Therefore, there is no need for the operator to determine whether the software version of another device needs to be upgraded in accordance with the software version upgrade of one device. Further, unnecessary upgrade work is eliminated, and the work load of the operator required for the upgrade work can be reduced.

It is a schematic diagram of the production system of the present embodiment. FIG. 9 is a diagram illustrating an example of a software update process of a comparative example. It is a block diagram of a production system of the present embodiment. It is a figure showing an example of collection processing of function information of this embodiment. FIG. 7 is a diagram illustrating an example of a notification process of a common function according to the present embodiment. FIG. 9 is a diagram illustrating an example of a software update process according to the present embodiment. FIG. 14 is a diagram illustrating another example of the notification processing of the common function according to the present embodiment. It is a figure showing an example of notice processing of an invalid function of this embodiment.

  Hereinafter, a production system according to the present embodiment will be described with reference to the accompanying drawings. FIG. 1 is a schematic diagram of a production system according to the present embodiment. FIG. 2 is a diagram illustrating an example of a software update process according to a comparative example. Note that, in the present embodiment, an example in which a production line is configured by an inspection device and a plurality of mounting devices will be described. However, the production system of the present embodiment is merely an example, and can be appropriately changed.

  As shown in FIG. 1, the production system 1 is configured such that, on a production line of a substrate W on which an inspection device 10 and a plurality of mounting devices 20 are arranged, each of the subsequent mounting devices 20 The components are mounted with. The inspection device 10 inspects the quality of the printing of the substrate W based on the positional deviation and appearance of the solder printed on the substrate W by the image processing. The plurality of mounting apparatuses 20 construct a production line of the substrate W together with the inspection apparatus 10, and mount various components on the substrate W sequentially transferred from the inspection apparatus 10 step by step. The inspection device 10 and the mounting device 20 are managed by a host computer 30.

  The substrate W is a multiple-panel substrate composed of a plurality of split substrates, and various marks such as a BOC mark (not shown) serving as a position reference of the substrate W and a bad mark (not shown) indicating that the split substrate is defective. Is attached. Each mounting device 20 corrects a positional shift caused by distortion of the board W by recognizing the BOC mark, and skips the split board with the bad mark by recognizing the bad mark to perform a component mounting process. Has been implemented. In the present embodiment, a multi-panel substrate is described as an example of the substrate W, but the substrate W may be a single substrate with various marks.

  In such a production system 1, various functions such as a traceability function, an external output function, and a bad mark propagation function are provided in cooperation with the inspection device 10, the plurality of mounting devices 20, and the host computer 30. The traceability function is a function of storing traceability information collected during operation of the production line as objective evidence in association with a serial number or a component lot number of the substrate W. The external output function is a function for outputting operation information such as the operation time of the apparatus. The bad mark propagation function is a function of propagating bad mark arrangement information to a subsequent device and omitting a bad mark recognition process for each device.

  By the way, as shown in FIG. 2A, in the production system of the comparative example, a plurality of devices operate in cooperation with each other. Software must also be upgraded. For example, if the version of the software of the host computer 30 is upgraded to correct a part of the malfunction, the software of the irrelevant mounting device 20 or the like must be upgraded to match the versions. The extra version-up work increases the downtime of the production line, increases the work load on the operator, and lowers productivity.

  Generally, software is updated while repeatedly correcting a defect or adding a function. When the software is upgraded, a function irrelevant to the defect correction may be added. For example, when a version upgrade is performed to correct a part of the software of the host computer 30, a bad mark propagation function included in the version upgrade data is newly added. When the bad mark propagation is added by performing the version-up operation in all the devices, the bad mark propagation function can be used in the production system. In this way, new functions are provided free of charge, although only the host computer 30 is repaired.

  As shown in FIG. 2B, if only the software version of the host computer 30 has been upgraded, the bad mark propagation function is not added to the mounting device 20 or the like, so that the production system can use the bad mark propagation function. Never be. However, since the bad mark propagation function is added to the host computer 30, there is a possibility that an operator who visually recognizes the menu screen of the host computer 30 may misunderstand that the bad mark propagation function can be used. Therefore, although new functions are not provided free of charge, they may cause trouble due to erroneous operations.

  Therefore, in the production system 1 of the present embodiment, a common function is extracted by software of the host computer 30, the inspection device 10, and the mounting device 20, and only the common function is automatically enabled. Therefore, only when the version upgrade data includes update information of a common function in each apparatus, the software needs to be upgraded in all apparatuses, and unnecessary upgrade work can be eliminated, thereby reducing the operator's work load and the like. In addition, by hiding a function that is not common to each device on the menu screen, a misunderstanding that an invalid function can be used is not given to the operator, and trouble due to an erroneous operation can be avoided.

  Hereinafter, the production system of the present embodiment will be described in detail with reference to FIG. FIG. 3 is a block diagram of the production system according to the present embodiment. Note that the block diagram of the production system shown in FIG. 3 is simplified for explaining the technology of the present disclosure, and it is assumed that the inspection device, the mounting device, and the host computer are provided for configurations that are normally provided.

  As shown in FIG. 3, the host computer 30 is configured such that the inspection device 10 and the mounting device 20 are connected by wire or wirelessly, and manages the inspection device 10 and the mounting device 20. The host computer 30 is provided with a collection unit 31 that collects function information implemented in software from the inspection device 10 and the mounting device 20 and a database 32 in which function information of each device is registered. The function information of the software is collected from the inspection device 10 and the mounting device 20 at a predetermined timing such as the start of operation by the collection unit 31 and registered in the database 32.

  The host computer 30 includes an extraction unit 33 that extracts common function information by software of each device, and a control unit 34 that controls the functions of the software of the host computer 30 so that the common function is enabled from the extraction result. Are provided. The extraction unit 33 compares the function information registered in the database 32, and extracts common function information having the same function name from the database 32. The common functions included in the extraction result are enabled by the control unit 34, and only the functions common to the software of each device are selectively displayed on the menu screen of the display unit 35.

  Further, the host computer 30 is provided with a notification unit 36 that notifies the inspection device 10 and the mounting device 20 of a control signal indicating a common function. The notifying unit 36 generates a control signal in which the common function flag is set to ON, and notifies the inspection device 10 and the mounting device 20 of the control signal. The inspection device 10 and the mounting device 20 are provided with control units 11 and 21 that control software functions so that common functions indicated by control signals are enabled. The common functions whose control signal flags are turned ON by the control units 11 and 21 are enabled, and only the common functions in the software of each device are selectively displayed on the menu screens of the display units 12 and 22.

  In this way, the host computer 30, the inspection device 10, and the mounting device 20 share the common function information of the software. The common function information is extracted from the database 32, and the common function is enabled in the host computer 30. A control signal with the common function flag turned ON is notified to the inspection device 10 and the mounting device 20, and the common function is enabled in the inspection device 10 and the mounting device 20. When the function name is the same and the version is different, the function of the old version is enabled, and the compatibility of the function between the devices due to the difference in the version is taken into consideration.

  Further, the host computer 30, the inspection device 10, and the mounting device 20 may be provided with update units 13, 23, and 37 for upgrading software based on the version managed in the database 32. When the version of the common function is older than the versions of the other devices, the update units 13, 23, and 37 automatically upgrade the software so that the versions of the common function are aligned. As a result, the version is always upgraded to the common function of the latest version, so that the workload of the operator required for the version upgrade operation can be reduced.

  Each control block of the host computer 30, the inspection device 10, and the mounting device 20 includes a processor that executes various processes, a memory, a control circuit, and the like. The memory is constituted by one or a plurality of storage media such as a ROM (Read Only Memory) and a RAM (Random Access Memory) depending on the application. The memory stores, in addition to software, a program of the production system 1 that provides a specific function in cooperation with the devices. The database 32 may be provided in the host computer 30 or may be provided in a server different from the host computer 30.

  The operation process of the production system will be described with reference to FIGS. FIG. 4 is a diagram illustrating an example of a function information collection process according to the present embodiment. FIG. 5 is a diagram illustrating an example of a notification process of a common function according to the present embodiment. FIG. 6 is a diagram illustrating an example of a software update process according to the present embodiment. FIG. 7 is a diagram illustrating another example of the notification processing of the common function according to the present embodiment. FIG. 8 is a diagram illustrating an example of a notification process of a disabled function according to the present embodiment. 4 to 8 will be described with reference to FIG. 3 as appropriate for the sake of convenience.

  As shown in FIG. 4, the software of the host computer 30 supports a traceability function and an external output function. The software of the inspection device 10 supports a traceability function, and the software of each mounting device 20 supports a traceability function and an external output function. It should be noted that V1 and V2 shown in the table of the database 32 in FIG. 4 indicate the versions of the respective functions. Since each function is disabled in the initial setting of each device, a specific function is not erroneously used by the operator before checking the compatibility of the functions between the devices.

  At a predetermined timing such as the start of operation, the collection unit 31 of the host computer 30 extracts function information from its own setting information and registers it in the database 32. In addition, a request signal of function information is transmitted to the inspection device 10 and each mounting device 20 by the collection unit 31, and the function information included in the response signal from the inspection device 10 and each mounting device 20 is registered in the database 32. . In the database 32, the function names and versions of the traceability function and the external output function are registered in association with each other for each device. Then, a traceability function, which is a common function, is extracted from the database 32 by the extraction unit 33 of the host computer 30.

  As shown in FIG. 5, the function of the software of the host computer 30 is controlled by the control unit 34 of the host computer 30 so that the common traceability function is enabled. Further, the invalid external output function is hidden by the control unit 34, and only the traceability function is displayed on the menu screen of the display unit 35. Thus, when the operator visually recognizes the menu screen of the host computer 30, it does not give a misunderstanding that the external output function that is invalid in any device in the system and cannot be linked is usable, and is not erroneously operated. Can be avoided.

  The notification unit 36 of the host computer 30 generates a control signal in which the common traceability function flag is set to ON, and notifies the inspection device 10 and each mounting device 20 of the control signal. The functions of the software of each device are controlled by the control units 11 and 21 of the inspection device 10 and each mounting device 20 so that the common traceability function is enabled. Since only the traceability function is displayed on the menu screen of the display unit 22 by the control units 11 and 21 of the inspection device 10 and each mounting device 20, the operator is misunderstood as if the external output function is available. Nothing.

  Here, as shown in FIG. 6, when a problem occurs in the software of the host computer 30, the software of the host computer 30 is upgraded. The latest version update data includes not only defect correction data but also functional data of a new bad mark propagation function. At this time, since the update information of the traceability of the common function is not included in the version upgrade data, the operator can recognize that the upgrade of the software of the inspection apparatus 10 and each mounting apparatus 20 is unnecessary. Therefore, the operator's work load required for useless upgrade work is reduced.

  Since only the software of the host computer 30 is upgraded, the bad mark propagation function is supported by the host computer 30, but the inspection device 10 and each mounting device 20 do not support the bad mark propagation function. Therefore, the bad mark propagation function that requires cooperation between the host computer 30, the inspection device 10, and each of the mounting devices 20 is not activated, and unintended free provision of a new function can be prevented. When the software is upgraded, the host computer 30 performs the function information collection processing and the common function notification processing again as described above.

  Since the bad mark propagation function is not a common function, the bad mark propagation function is invalidated by the host computer 30 and no control signal is notified from the host computer 30 to the inspection device 10 or each mounting device 20. Although the bad mark propagation function is supported by the host computer 30, the bad mark propagation function is disabled, so that the bad mark propagation function is not displayed on the menu screen of the host computer 30. Therefore, even if the operator visually recognizes the menu screen, the bad mark propagation function is not displayed, so that there is no misunderstanding that the bad mark propagation function can be used.

  As shown in FIG. 7, if the external output function is implemented in the software of the inspection apparatus 10, the external output function is also valid as a common function in all apparatuses. However, the version of the external output function of the host computer 30 is V2, and the version of the external output function of the inspection device 10 and each mounting device 20 is V1. Version V1 of the external output function is a function for outputting the operation time, and version V2 of the external output function is a function for outputting the real-time device state in addition to the operation time. When the same function has a different version, the function of the old version is shared as a common function. The version V1 of the external output function is enabled in the system, and only the output function of the operating time can be used.

  If the versions of the common function are different, the software may be upgraded by the inspection device 10, each mounting device 20, and the update units 13, 23, and 37 of the host computer 30 so that the versions of the common function are aligned. Good. As a result, the version of the external output function of the inspection device 10 and each mounting device 20 is automatically upgraded from V1 to V2, so that the version V2 of the external output function is enabled in the system, and the real-time device status is changed. Output function can also be used. It is not necessary to carry out the version upgrade work individually for each device, and the work load on the operator can be reduced.

  As shown in FIG. 8, when the common function is invalidated in any device in the system, the control unit 34 of the host computer 30 controls the software so that the common function is invalidated. In addition, a control signal in which the common function flag is set to OFF is generated by the notification unit 36 of the host computer 30, and a control signal indicating the invalid common function is notified to the inspection apparatus 10 and each mounting apparatus 20. . The software is controlled by the inspection device 10 and the control units 11 and 21 of each mounting device 20 so that the common function that has turned off the control signal flag is invalidated.

  For example, when the traceability function is temporarily invalidated in the inspection device 10, the traceability function of the inspection device 10 is deleted from the database 32 of the host computer 30. Then, the traceability function of the host computer 30 is invalidated, and a control signal in which the flag of the traceability function is turned off is notified to each mounting device 20 to invalidate the traceability function. As described above, when the common function is temporarily invalidated in any one of the inspection apparatus 10, the mounting apparatus 20, and the host computer 30, the common function is automatically invalidated in other apparatuses, and the operator's work is performed. The burden can be reduced.

  As described above, in the production system 1 of the present embodiment, common functions of software are enabled among the host computer 30, the inspection device 10, and each mounting device 20. Since the valid function and the invalid function are shared for each device and compatibility is confirmed, the software version needs to be upgraded in all devices only when the version update data includes valid function update information. Therefore, there is no need for the operator to determine whether the software version of another device needs to be upgraded in accordance with the software version upgrade of one device. Further, unnecessary version upgrade work is eliminated, and it is possible to reduce an operator's work load required for the version upgrade work.

  In the present embodiment, the inspection device and the mounting device have been described as examples of the processing device. However, the processing device may be any device that constructs a production line. For example, the processing device may be configured by a printing device or a reflow device.

  Further, in the present embodiment, a host computer has been described as an example of the management device, but the management device may be any device that can manage a plurality of processing devices. For example, the management device may be configured by an inspection device or may be configured by a mounting device.

  Further, in the present embodiment, a mounting system for mounting components on a board has been described as an example of a production system, but the production system may be any system that performs processing on a conveyed object on a production line.

  Further, in the present embodiment, the traceability function, the external output function, and the bad mark propagation function have been described as examples of the software functions, but the software functions may be any functions that are used in cooperation between a plurality of devices. Good.

  Further, in the present embodiment, only the functions used in cooperation between the devices have been described as an example. However, it goes without saying that the software of each device includes the functions used independently. Functions that can be used independently are enabled at the initial setting stage, and there is no need to collect function information and share it between devices.

  In this embodiment, the common function is notified by turning on and off the flag of the control signal. However, the control signal uses common function information so that the common function is enabled in a plurality of processing devices. Any signal may be used as long as the signal is indicated.

  In the present embodiment, the components are not particularly limited to electronic components as long as they can be mounted on a substrate.

  Further, in the present embodiment, the substrate is not limited to a printed board, but may be a flexible board mounted on a jig board.

  Further, the program of the present embodiment may be stored in a storage medium. The storage medium is not particularly limited, but may be a non-transitory storage medium such as an optical disk, a magneto-optical disk, and a flash memory.

  Although the present embodiment and the modification have been described, another embodiment may be a combination of the above embodiment and the modification in whole or in part.

  Further, the technology of the present disclosure is not limited to the above embodiments and modified examples, and may be variously changed, replaced, or modified without departing from the spirit of the technical idea. Furthermore, if the technical idea can be realized in another way by the progress of the technology or another derived technology, the method may be implemented using the method. Therefore, the claims cover all embodiments that can be included within the scope of the technical idea.

The features of the above embodiment will be summarized below.
The production system according to the above-described embodiment is a production system in which a plurality of processing devices configuring a production line and a management device managing the plurality of processing devices cooperate to provide a specific function, and the management device includes: A collection unit that collects function information implemented in software from a plurality of processing devices, an extraction unit that extracts function information common to the software of its own device and a plurality of processing devices, and a common function becomes effective from the extraction result A control unit that controls the functions of the software, and a notifying unit that notifies a control signal indicating a common function to a plurality of processing devices, so that the plurality of processing devices have a common function indicated by the control signal. A control unit for controlling functions of the software so as to be effective is provided.

  The management device described in the above embodiment is a management device that provides a specific function in cooperation with a plurality of processing devices that construct a production line, and collects function information implemented in software from the plurality of processing devices. A collecting unit that extracts common function information by software of the management device and the plurality of processing devices; a control unit that controls software functions so that common functions are enabled from the extraction result; And a notifying unit for notifying a control signal indicating the common function so that the common function becomes effective in the processing device.

  According to these configurations, a common software function is enabled between the plurality of processing devices and the management device. Since the valid function and the invalid function are shared for each device and the compatibility is confirmed, the software version needs to be upgraded in all the devices only when the update information of the valid function is included. Therefore, there is no need for the operator to determine whether the software version of another device needs to be upgraded in accordance with the software version upgrade of one device. Further, unnecessary upgrade work is eliminated, and the work load of the operator required for the upgrade work can be reduced.

  In the production system described in the above embodiment, the control unit of the management device and the plurality of processing devices hides the invalid function on the menu screen. According to this configuration, when the operator visually recognizes the menu screen, a misunderstanding that a function not provided in the system can be used is not given, and a trouble due to an erroneous operation can be avoided.

  In the production system described in the above embodiment, the control unit of the management device and the plurality of processing devices disables software functions as initial settings, and enables common functions according to control signals. According to this configuration, it is possible to reliably enable only a common function between a plurality of processing devices and a management device.

  In the production system described in the above embodiment, the control unit of the management device and the control units of the plurality of processing devices controls the function of the software so that the function of the old version becomes valid when the version is different with the common function. . According to this configuration, only the functions up to the old version can be validated in consideration of the compatibility of the functions depending on the version.

  In the production system described in the above embodiment, the control unit of the management device is configured to execute software such that the common function is disabled when the common function is disabled in any of the management device and the plurality of processing devices. Control unit, the notification unit of the management device notifies a control signal indicating a common function to be invalidated to the plurality of processing devices, and the control units of the plurality of processing devices determine that the invalidity indicated by the control signal is invalid. Control software to disable common functions. According to this configuration, when a common function is temporarily disabled in any of the management device and the plurality of processing devices, the common function can be automatically disabled in other devices. Therefore, it is not necessary to individually work on the apparatus in order to invalidate the common function, and the work load on the operator can be reduced.

  In the production system described in the above embodiment, the management device and the plurality of processing devices include an update unit that upgrades software so that the versions of the common functions are aligned. According to this configuration, it is possible to automatically upgrade the software so that the versions of the common functions are aligned, and it is possible to reduce the work load of the operator required for the work of upgrading.

  The program described in the above-described embodiment is a program of a production system in which a plurality of processing devices that construct a production line and a management device that manages the plurality of processing devices cooperate to provide a specific function. Collecting the function information implemented in the software from the plurality of processing devices, extracting the common function information by the software of the own device and the software of the plurality of processing devices, and enabling the common function from the extraction result. Controlling the functions of the software and notifying the plurality of processing devices of a control signal indicating a common function, so that the plurality of processing devices can effectively execute the common function indicated by the control signal. The step of controlling the function of the software is executed as described below. According to this configuration, by installing the program in the production system, it is possible to reduce the workload of the operator when upgrading the software without changing the existing configuration.

1: Production system 10: Inspection device (processing device)
11: control unit 13: update unit 20: mounting device (processing device)
21: control unit 23: update unit 30: host computer (management device)
31: collection unit 33: extraction unit 34: control unit 36: notification unit 37: update unit

Claims (8)

A production system that provides a specific function in cooperation with a plurality of processing devices that construct a production line and a management device that manages the plurality of processing devices,
The management device,
A collection unit that collects function information implemented in software from the plurality of processing devices,
An extraction unit that extracts function information common to software of the management device and the plurality of processing devices,
A control unit that controls software functions so that common functions are enabled from the extraction result;
Notifying unit for notifying a control signal indicating a common function to the plurality of processing devices,
The plurality of processing devices,
A production system, comprising: a control unit that controls software functions so that a common function indicated by a control signal is enabled.   The production system according to claim 1, wherein the control unit of the management device and the plurality of processing devices hides an invalid function on a menu screen.   3. The control unit of the management device and the plurality of processing devices disables a function of software as an initial setting, and enables a common function in response to a control signal. Production system.   The control unit of the management device and the control unit of the plurality of processing devices controls a function of software such that a function of an old version becomes valid when a common function has a different version. The production system according to claim 3. The control unit of the management device, when a common function is disabled in any of the management device and the plurality of processing devices, controls a software function so that a common function is disabled,
The notification unit of the management device notifies a control signal indicating a disabled common function to the plurality of processing devices,
The production unit according to any one of claims 1 to 4, wherein the control units of the plurality of processing devices control software such that a common function invalidated by a control signal is invalidated. system.   The production system according to any one of claims 1 to 5, wherein the management device and the plurality of processing devices include an update unit that upgrades software so that versions of a common function are aligned. . A management device that provides a specific function in cooperation with a plurality of processing devices that construct a production line,
A collection unit that collects function information implemented in software from the plurality of processing devices,
An extraction unit that extracts function information common to software of the management device and the plurality of processing devices,
A control unit that controls software functions so that common functions are enabled from the extraction result;
And a notifying unit for notifying a control signal indicating a common function so that the common function becomes effective in the plurality of processing devices. A program for a production system in which a plurality of processing devices that construct a production line and a management device that manages the plurality of processing devices cooperate to provide a specific function,
In the management device,
Collecting function information implemented in software from the plurality of processing devices,
Extracting common function information in software of the management device and the plurality of processing devices;
Controlling software functions so that common functions are enabled from the extraction result;
Notifying a control signal indicating a common function to the plurality of processing devices,
In the plurality of processing devices,
A program for executing a step of controlling a function of software so that a common function indicated by a control signal is enabled.

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