JP2020009208A - Management system and management device - Google Patents

Abstract

To provide a processing program for a processing device using updated component data.SOLUTION: A management system 1 is configured to manage a production program with respect to a plurality of mounting devices 10 by a management device 20 and manage component data used for the production program by a server 30. The management device is provided with an update unit 24 for updating the component data of the production program and the server is provided with a database 31 in which component data for update is registered. The update unit updates the component data of the production program using the component data of the database at least before the mounting devices download the production program.SELECTED DRAWING: Figure 3

Description

  The present invention relates to a management system and a management device for managing various processing devices.

  2. Description of the Related Art Conventionally, as a management system, a system in which a plurality of processing devices such as mounting devices are collectively managed by a management device is known (for example, see Patent Document 1). In the management device described in Patent Document 1, a processing program (production program) is created, and the processing program is downloaded from the management device to each processing device, so that the setting content described in the processing program is reflected in each processing device. Have been. Normally, a processing program includes component data relating to components such as component dimensions and processing conditions, and by appropriately correcting the component data, processing accuracy of the components in the processing device is improved.

Japanese Patent No. 6060171

  Incidentally, a large amount of processing programs are stored in the management device, and the same component data is used in a plurality of processing programs. For this reason, even if the part data of some processing programs are corrected by the operator, the part data of other processing programs do not change, so that a processing program including corrected part data and a processing program including uncorrected part data Was mixed. For this reason, old part data that has not been modified may be used when another processing program is used.

  SUMMARY An advantage of some aspects of the invention is to provide a management system and a management apparatus that can provide a processing program with updated component data to a processing apparatus.

  A management system according to one aspect of the present invention is a management system that manages a processing program for a plurality of processing devices with a management device and manages component data used in the processing program with a server. An update unit for updating the component data of the program is provided, and the server is provided with a database in which the component data for update is registered, and the update unit is configured to execute at least before the processing device downloads the processing program. The component data of the processing program is updated with the component data of the database.

  A management device according to one embodiment of the present invention is a management device that manages a processing program for a plurality of processing devices and is capable of accessing a database in which component data used in the processing program is registered. An updating unit for updating, and an acquiring unit for acquiring component data for update from a database, wherein the updating unit converts the component data of the processing program into the component data of the database at least before downloading the processing program by the processing device. It is characterized by updating.

  According to these configurations, before the processing device downloads the processing program, the management device automatically updates the component data of the processing program with the component data of the database. By registering the corrected component data in the database, the corrected component data can be reliably reflected in the processing program when the processing program is used. Even when the same component data is used in different processing programs, the data is updated with the component data in the database before each download. No data is used.

  In the management system according to one aspect of the present invention, the management device is provided with an optimization unit that optimizes a component mounting order with respect to a processing program, and the update unit is configured to perform the optimization before the processing program is downloaded. Then, the component data of the processing program is updated with the component data of the database. According to this configuration, since the processing program is optimized after the update of the component data, the update of the component data does not adversely affect the optimization of the processing program.

  In the management system according to one aspect of the present invention, in the database, the corrected information is associated with the component data and registered, and the updating unit updates the component data of the processing program with the component data having the corrected information in the database. I do. According to this configuration, the component data with the corrected information can be recognized, and only the uncorrected component data can be updated to reduce the processing load on the management device.

  In the management system according to one aspect of the present invention, the processing program associates the component data with the update date and time, and registers in the database the component data with the update date and time as the corrected information. If the update date of the component data of the processing program is different from the update date of the component data of the database, the component data of the processing program is updated with the component data of the database. According to this configuration, the updated component data is recognized based on the update date and time, and only the unupdated component data is updated, so that the processing load on the management device can be reduced.

  In the management system according to one aspect of the present invention, when the update date and time of the component data of the processing program is older than the update date and time of the component data of the database, the update unit updates the component data of the processing program with the component data of the database. . According to this configuration, of the component data of the processing program, only the component data whose update date and time is old can be updated with new component data, and the component data of the processing program can be kept up to date.

  In the management system according to one aspect of the present invention, the part data corrected by the processing device is registered in the database. According to this configuration, it is possible to register highly reliable component data that has been processed by the processing device in the database.

  In the management system according to one embodiment of the present invention, the processing device is a mounting device that mounts components on a substrate. According to this configuration, it is possible to reduce the processing error during the production by reflecting the corrected component data in the processing program of the mounting apparatus.

  According to the present invention, before the processing device downloads the processing program, the management device automatically updates the component data of the processing program, thereby providing the processing program of the updated component data to the processing device. Can be.

It is a schematic diagram of a management system of the present embodiment. FIG. 11 is an explanatory diagram of a process of updating component data of the management system of the comparative example. It is a control block diagram of the management system of this Embodiment. FIG. 14 is a diagram illustrating an example of an update process of the management system according to the present embodiment.

  Hereinafter, a management system according to the present embodiment will be described with reference to the accompanying drawings. FIG. 1 is a schematic diagram of a management system according to the present embodiment. FIG. 2 is an explanatory diagram of a component data update process of the management system of the comparative example. In the present embodiment, a mounting apparatus for mounting components on a substrate will be described as a processing apparatus, but the present invention is not limited to this configuration. For example, the processing device may be an inspection device that inspects components mounted on a substrate.

  As shown in FIG. 1, a management system 1 of the present embodiment connects a plurality of mounting apparatuses (processing apparatuses) 10 arranged on a production line and a management apparatus 20 so as to be able to communicate with each other. The device 10 is configured to be centrally managed. The mounting device 10 downloads a production program (processing program) from the management device 20, and mounts components supplied from a feeder on the board based on the production program. The production program includes component data indicating various parameters relating to components. The management system 1 is provided with a server 30 that manages component data of a production program separately from the management device 20.

  The server 30 is provided with a database 31. In the database 31, update component data is registered for each component. As the component data, for example, the product type, model number, manufacturer, external dimensions, number of leads, lead length, and lead width are registered in the database 31. The database 31 is not particularly limited as the component data as long as it is information on the component, and the supply state of a tape feeder, a stick feeder, a bulk feeder, a tray, and the like, and a component such as a square chip shape, a spherical shape, and a cylindrical shape. Shape and the like may be included. Further, a comment may be registered for each component.

  By the way, in such a management system 1, if a recognition error or the like frequently occurs during the production by the mounting apparatus 10, the operator corrects the component data in each mounting apparatus 10. If a plurality of mounting devices 10 are assigned to different operators, even if some of the mounting devices 10 correct the component data with high recognition accuracy, the other mounting devices 10 may not reflect them. For this reason, the component data corrected by the mounting apparatus 10 is registered in the database 31 of the server 30, and the corrected component data is managed by the database 31. By the unified management of the database 31, high-quality component data can be shared by a plurality of mounting apparatuses 10.

  Here, instead of reflecting the correction data on the database 31, the management device 20 may directly correct the part data of the production program. However, since the management device 20 manages a large number of production programs, it is not realistic to search for production programs containing the same part data one by one and modify the part data. In addition, since the component data cannot be corrected at one time, if the download and upload of the production program are repeated each time the correction is made, the burden on the management device 20 increases. Further, since unnecessary management programs are also managed in the management device 20, there is a possibility that useless correction may occur.

  For this reason, as shown in the comparative example of FIG. 2A, normally, after correcting the component data by the mounting apparatus 10, the corrected component data is uploaded to the database 31 of the server 30. At the next production, as shown in FIGS. 2B and 2C, after the mounting device 10 downloads the production program from the management device 20, the mounting device 10 reads the database 31 of the server 30 and the mounting device 10 The component data is updated with the component data registered in the database 31. Since high-quality component data is registered in the database 31, it is possible to reduce recognition errors and the like by reflecting the data in the production program.

  However, since common part data is used in a plurality of production programs, even if part data is reflected in some production programs, part data is not necessarily reflected in other production programs. For example, when there is an unused production program in the management device 20, the production program must be downloaded to each mounting device 10, and the component data must be read from the database 31 in each mounting device 10. In addition, if the part data is forgotten to be updated in some of the mounting devices 10, the production is performed using old component data in some of the mounting devices 10. As described above, even if the data is centrally managed by the database 31, the plurality of mounting apparatuses 10 may produce different component data.

  Therefore, in the present embodiment, before the mounting apparatus 10 downloads the production program from the management apparatus 20, the management apparatus 20 reads out the component data for update from the database 31 of the server 30, and the management apparatus 20 reads the component data of the production program. The data is updated automatically. Thus, since the component data of the production program downloaded to the mounting apparatus 10 has already been corrected, the mounting apparatus 10 does not need to read the component data from the database 31. In addition, since the management apparatus 20 updates the component data of the production program, some of the mounting apparatuses 10 do not forget to update the component data.

  Hereinafter, the update processing by the management system will be described with reference to FIGS. FIG. 3 is a control block diagram of the management system according to the present embodiment. FIG. 4 is a diagram illustrating an example of an update process of the management system according to the present embodiment.

  As shown in FIG. 3, in the management system 1, the mounting device 10, the server 30, and the management device 20 are mutually connected by wired communication or wireless communication. The mounting apparatus 10 operates based on a production program downloaded from the management apparatus 20, and includes a control unit 11 that controls the entire apparatus and a correction unit 12 that corrects component data of the production program. The control unit 11 downloads a production program from the management device 20, controls the driving of each unit of the device based on the production program, loads the board into the mounting apparatus 10, and sets a plurality of mounting points for each mounting point of the board. Parts are mounted in order.

  The correction unit 12 provides the operator with a component data correction screen, and when a component recognition error or the like frequently occurs, the component data included in the production program is corrected on the correction screen. When the component data of the production program is corrected, the board production operation is performed by the production program after the correction of the component data. When the production operation is completed, the corrected part data is uploaded from the correction unit 12 to the server 30, and the corrected part data is registered in the database 31. As described above, the registration process of the component data in the database 31 is performed by the correction unit 12.

  The server 30 manages component data used in the production program, and has a database 31 in which component data for update is registered. Various component data are registered in the database 31 for each component, and include, for example, information related to recognition accuracy. In the database 31, the update date and time may be registered as a corrected flag in association with the component data. In the database 31, component data for updating the production program may be used, and not limited to the latest component data, but component data for returning to a past state may be registered.

  The management device 20 manages production programs for the plurality of mounting devices 10, and includes a storage unit 21 that stores the production programs, and an acquisition unit 22 that acquires update component data from the database 31. Further, the management device 20 includes an optimizing unit 23 that optimizes a component mounting order for the production program, and an updating unit 24 that updates component data of the production program. The storage unit 21 stores a production program for each type of board. The acquisition unit 22 acquires component data from the database 31 of the server 30 before the download of the production program in the mounting apparatus 10 starts.

  The optimizing unit 23 shortens the production tact and improves the production efficiency of the board by modifying the mounting order of the components described in the production program. For example, the mounting order of the components is optimized such that the moving distance of the mounting nozzle that moves the mounting point on the substrate is the shortest distance. The updating unit 24 updates the component data of the production program with the component data for updating of the database 31 at least before the production program is downloaded by the mounting apparatus 10. Since the component data is updated before downloading, it is possible to cause the mounting apparatus 10 to start production with a production program including the updated component data.

  Note that at least before the production program is downloaded by the mounting apparatus 10 includes not only immediately before the download of the production program but also the time of optimization before the download of the production program. If the component data is updated immediately before the download of the production program, the component data can be updated only for the production program downloaded to the mounting apparatus 10. Of the production programs stored in the storage unit 21, component data is not updated even for a production program that is not scheduled to be used in the mounting apparatus 10, so that the load on the component data update processing by the management apparatus 20 can be reduced. .

  At the time of optimization before downloading the production program, the component data of the production program may be updated with the component data of the database 31. That is, if the component data is updated after the optimization processing of the production program, the optimal mounting order of the components may change due to the update of the component data. For this reason, after the updating unit 24 updates the component data of the production program, the optimizing unit 23 optimizes the production program. Accordingly, the update of the component data does not adversely affect the optimization of the production program, and the optimization process of the production program can be performed with high accuracy using the updated component data.

  In addition, when the update date and time are associated with the component data of the production program and the update date and time are associated with the component data of the database 31, the update unit 24 may update only the component data with different update date and time. The update unit 24 recognizes the update date and time of the component data of the production program and recognizes the update date and time of the component data of the database 31, and updates the component data of the production program with the component data of the database 31 only when the update date and time are different. . Thus, the updated component data is recognized based on the update date and time, and only the unupdated component data is updated, so that the processing load on the management device 20 can be reduced.

  In this case, when the update date and time of the component data of the production program is older than the update date and time of the component data of the database 31, the update unit 24 may update the component data of the production program with the component data of the database 31. Of the part data of the production program, only the part data whose update date is old can be updated to the new part data, and the part data of the production program can be kept up to date. The update unit 24 may update the component data of the production program with the component data at the specified date and time in the database 31 by specifying the update date and time. Thereby, it is also possible to return the part data of the production program to the past data.

  Note that the control unit 11, the correction unit 12, the database 31 of the server 30, the storage unit 21, the acquisition unit 22, the optimization unit 23, and the update unit 24 of the mounting device 10 include a processor and a memory that execute various processes. And so on. 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. Each processing program of the mounting device 10, the server 30, and the management device 20 is stored in the memory. Further, a program for updating the component data of the production program is stored in the memory of the management device 20.

  As illustrated in FIG. 4A, in the management system configured as described above, when a component error of the first production program is corrected when a recognition error or the like occurs in the mounting apparatus 10, the mounting apparatus 10 sends the data to the server 30. The corrected component data is uploaded. Thereby, the component data of the database 31 of the server 30 is updated with the component data of the first production program. The actual production is performed using the component data corrected by the mounting apparatus 10 and the component data used in the actual production is uploaded to the server 30. Can be updated.

  For example, when the component data a and b of the component data of the first production program are corrected to the component data A and B in the mounting device 10, the component data A and B are uploaded from the mounting device 10 to the server 30. . Then, the component data a and b registered in the database 31 of the server 30 are updated to the corrected component data A and B. In this manner, the content of the modification of the production program in the mounting device 10 is reflected in the database 31 of the server 30. The upload of the component data from the mounting apparatus 10 to the server 30 may be performed after the production is completed, or may be performed before the production is completed.

  In addition, when the update date and time are associated with each component data of the first production program and the update date and time are associated with each component data of the database 31, the update date and time are updated together with the component data. At this time, the update processing is performed only on the part data having the different update date and time between the first production program and the database 31, and the update processing is performed on the part data having the same update date and time between the first production program and the database 31. Not done. The component data may be automatically uploaded from the mounting device 10 to the server 30 or may be manually uploaded.

  As shown in FIG. 4B, when the production is completed by the first production program, before the mounting device 10 downloads the second production program from the management device 20, the management device 20 transmits the component data from the database 31 of the server 30. Is obtained. Then, the component data of the second production program is updated by the management device 20 with the component data of the database 31. For example, the second production program includes the same parts data a and b as the first production program, and the parts data A and B updated in the database 31 during production using the first production program. The component data a and b of the second production program are updated.

  When the update date and time is associated with the component data of the second production program and the update date and time is associated with the component data of the database 31, the management device 20 inquires the server 30 of the update date and time of each component data. . If the update date and time of each component data is different, the component data is called from the database 31 and the component data of the second production program is updated. For example, when only the update date and time of the component data a of the second production program is older than the update date and time of the component data A of the database 31, only the component data a of the second production program is the component data A of the database 31. Be updated.

  When the component data of the second production program is updated by the management device 20, optimization processing is performed on the second production program, and the order of mounting components on the board is determined. By updating the component data of the second production program at the time of optimization, it is possible to optimize the second production program with the updated component data. It should be noted that the component data of the second production program may be updated just before the download after the optimization, not only during the optimization. With these configurations, the update processing is performed only on the second production program to be downloaded, and unnecessary update processing can be eliminated.

  As shown in FIG. 4C, when the update process and the optimization process of the second production program are completed, the second production program is downloaded from the management device 20 to the mounting device 10. Then, the actual production is started by the mounting apparatus 10 based on the second production program. For example, since the component data A and B corrected at the time of actual production using the first production program are also reflected in the second production program, a recognition error at the time of actual production using the second production program. Etc. are reduced. Further, since the component data is updated in the host system such as the management device 20, even if the plurality of mounting devices 10 individually download the second production program, the component data will not be forgotten to update.

  As described above, in the management system 1 of the present embodiment, the component data of the production program is automatically updated with the component data of the database 31 by the management device 20 before the mounting device 10 downloads the production program. By registering the corrected part data in the database 31, when the production program is used, the corrected part data can be surely reflected in the production program. Further, even when the same part data is used in different production programs, the data is updated with the component data in the database 31 before each download, so that the production programs used in the mounting apparatus 10 are not updated. Old part data is never used.

  In this embodiment, the update date and time are described as the corrected information, but the present invention is not limited to this configuration. The corrected information may be any information that can specify whether or not the component data has been corrected. For example, the corrected information may be a corrected flag.

  Further, in the present embodiment, the configuration in which the component data of the production program is updated when the production program is optimized or downloaded is described, but the present invention is not limited to this configuration. The component data of the production program may be updated before the production program is downloaded. For example, the component data of the production program may be updated before the production program is optimized.

  Further, in the present embodiment, as described above, the present invention is not limited to the configuration in which the component data having the old update date is updated to the component data having the new update date, and the component data having the new update date is updated to the component data having the old update date. Is also good. Alternatively, all the component data of the production program may be updated with the component data of the database every time the update process occurs, ignoring the update date and time. Therefore, the update date and time need not always be associated with the production program and the component data of the database.

  Further, in the present embodiment, the component data of the production program is modified by the mounting apparatus and uploaded to the server, but the present invention is not limited to this configuration. The modification of the component data of the production program does not need to be performed by the mounting device, and may be performed by an external device other than the mounting device.

  Further, in this embodiment, the mounting device is illustrated as the processing device, but the present invention is not limited to this configuration. The processing device may be any device that handles component data, and may be, for example, an inspection device that inspects the mounting state of components on a board. In the case where a component recognition error or the like frequently occurs in the inspection device, the component data is updated by the host system such as the management device, so that the corrected component data can be reliably reflected in the inspection program. Further, the processing program of the processing device is a program used for processing of the processing device, and is a concept including a production program of the mounting device and an inspection program of the inspection device.

  Further, in the present embodiment, the management system is configured to include the mounting device as the processing device, but may include a processing device other than the mounting device. For example, the management system may include a mounting device and an inspection device as processing devices.

  Further, in the present embodiment, the server is provided separately from the management device and the mounting device, but the present invention is not limited to this configuration. The server may be provided integrally with the management device, or may be provided integrally with the mounting device.

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

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

  Further, the embodiments of the present invention are not limited to the above-described embodiments and modified examples, and may be variously changed, replaced, or modified without departing from the spirit of the technical idea of the present invention. Further, if the technical idea of the present invention can be realized in another way by advancing or another derived technique, the method may be implemented using the method. Therefore, the claims cover all embodiments that can be included in the scope of the technical idea of the present invention.

  Further, in the above embodiment, the management system manages processing programs for a plurality of processing devices by a management device, and manages component data used by the processing programs by a server. An update unit for updating data is provided, the server is provided with a database in which component data for update is registered, and the update unit is configured to update the component of the processing program at least before the processing device downloads the processing program. It is characterized in that data is updated with component data in a database. According to this configuration, before the processing device downloads the processing program, the management device automatically updates the component data of the processing program with the component data of the database. By registering the corrected component data in the database, the corrected component data can be reliably reflected in the processing program when the processing program is used. Even when the same component data is used in different processing programs, the data is updated with the component data in the database before each download. No data is used.

  As described above, the present invention has an effect that a processing program can be provided to a processing apparatus with updated component data, and in particular, a management system of a mounting line for mounting components on a board, Useful for equipment.

1: Management system 10: Mounting device (processing device)
20: Management device 22: Acquisition unit 23: Optimization unit 24: Update unit 30: Server 31: Database

Claims (8)

A management system that manages a processing program for a plurality of processing devices with a management device and manages component data used in the processing program with a server,
The management device is provided with an update unit that updates the component data of the processing program,
The server is provided with a database in which component data for update is registered,
A management system, wherein the updating unit updates component data of the processing program with component data of a database at least before the processing device downloads the processing program. The management device is provided with an optimization unit that optimizes a component mounting order for a processing program,
2. The management system according to claim 1, wherein the update unit updates the component data of the processing program with the component data of a database at the time of optimization before downloading the processing program. In the database, the corrected information is registered in association with the part data,
3. The management system according to claim 1, wherein the updating unit updates the component data of the processing program with component data with corrected information of a database. 4. The processing program associates the update date and time with the component data,
In the database, the update date and time are registered as corrected information with the part data, and registered.
4. The method according to claim 3, wherein the updating unit updates the component data of the processing program with the component data of the database when the update date of the component data of the processing program is different from the update date of the component data of the database. Management system.   The method according to claim 4, wherein the update unit updates the component data of the processing program with the component data of the database when the update date of the component data of the processing program is older than the update date of the component data of the database. Management system.   The management system according to any one of claims 1 to 5, wherein the part data corrected by the processing device is registered in a database.   7. The management system according to claim 1, wherein the processing device is a mounting device that mounts components on a substrate. A management device that manages a processing program for a plurality of processing devices and is capable of accessing a database in which component data used in the processing program is registered,
An update unit that updates the component data of the processing program;
An acquisition unit for acquiring component data for update from a database,
The management device, wherein the updating unit updates component data of the processing program with component data of a database at least before the processing device downloads the processing program.

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