JP2023127932A - Manufacturing facility management system and manufacturing facility management method - Google Patents

Abstract

To provide a manufacturing facility management system that improves efficiency of management of a manufacturing facility irrespective of the level of skill of an administrator.SOLUTION: A manufacturing facility management system 1 comprises: a plurality of manufacturing facilities 10 having identification information 13 each assigned thereto; a management server device 40 that stores a plurality of pieces of management information related to each of the manufacturing facilities 10 in association with the identification information of the manufacturing facility 10; and a plurality of management terminals 50 owned by a plurality of administrator, respectively. Each of the plurality of pieces of management information includes a regular maintenance request, a regular inspection request, or a failure handling request as a management request, and further includes a manufacturing facility manual as facility information. Each of the plurality of management terminals 50 reads the identification information 13 of the manufacturing facility 10 being managed from the plurality of manufacturing facilities, acquires the management information associated with the read identification information from the management server device 40 as management information of the manufacturing facility 10 being managed, and displays the acquired management information of the manufacturing facility 10 being managed.SELECTED DRAWING: Figure 1

Description

The present invention relates to a manufacturing equipment management system and a manufacturing equipment management method for electronic components.

As an electronic component, for example, a multilayer ceramic capacitor is known, which includes a laminate in which a plurality of dielectric layers made of a ceramic material and a plurality of internal electrode layers are laminated, and an external electrode arranged on an end surface of the laminate. There is. As a manufacturing method for such electronic components,
- Obtain a laminated sheet by laminating multiple dielectric sheets on which internal electrode patterns are formed,
・Use a hydrostatic press to press the laminated sheet to obtain a laminated block.
・Cut the laminated block to a predetermined size to obtain a laminated chip,
- Obtain a laminate by firing the laminated chips,
・Obtaining electronic components by forming external electrodes on the end faces of the laminate;
Methods are known (see, for example, US Pat.

In manufacturing equipment for manufacturing such electronic components, a manager performs management such as regular maintenance (maintenance, maintenance), periodic inspection, and troubleshooting.

Japanese Patent Application Publication No. 2019-140374 JP2017-204627A Patent No. 2859975

Such electronic component manufacturing equipment is equipped with various types of manufacturing equipment corresponding to the various manufacturing processes described above, so the management of the equipment is different. Specifically, equipment manuals are different, and management contents such as maintenance, inspection, and breakdowns are different.

In addition, in such electronic component manufacturing equipment, even if the manufacturing equipment is of the same model, the equipment settings are different and the equipment management is different in order to support the manufacturing of various types of electronic components. Specifically, management standards for maintenance, inspection, failure, etc. are different, and in some cases, management with high precision (standards) is required. For example, in the above-mentioned hydrostatic press process, control with high precision (standard) on the order of several μm is required (see, for example, Patent Document 3).

Therefore, the experience and skills of a skilled manager are required to understand the manual, management details, and management standards of the manufacturing equipment to be managed.

An object of the present invention is to provide a manufacturing equipment management system and a manufacturing equipment management method that improve the efficiency of managing manufacturing equipment regardless of the skill level of the manager.

A manufacturing equipment management system according to the present invention is a system in which a plurality of manufacturing equipments each manufacturing a plurality of types of electronic components are managed by a plurality of managers, and each of the manufacturing equipments is assigned identification information. a management server device that stores a plurality of management information regarding each of the plurality of manufacturing facilities in association with the identification information of each of the plurality of manufacturing facilities; and a plurality of management terminals owned by each of the plurality of managers. Equipped with. The management of the plurality of manufacturing facilities includes periodic maintenance, periodic inspection, or failure response, and each of the plurality of management information includes a periodic maintenance request, a periodic inspection request, or a failure response request as a management request, and further includes equipment information. This includes manufacturing equipment manuals. Each of the plurality of management terminals reads identification information of a manufacturing facility to be managed among the plurality of manufacturing facilities, and transmits management information associated with the read identification information from the management server device to the management target. The acquired management information of the manufacturing equipment to be managed is displayed.

A manufacturing equipment management method according to the present invention is a management method in which a plurality of manufacturing equipments each manufacturing a plurality of types of electronic components is managed by a plurality of managers. Identification information is given to each of the plurality of manufacturing facilities. A plurality of pieces of management information regarding each of the plurality of manufacturing facilities are stored in a management server device in association with the identification information of each of the plurality of manufacturing facilities. The management of the plurality of manufacturing facilities includes periodic maintenance, periodic inspection, or failure response, and each of the plurality of management information includes a periodic maintenance request, a periodic inspection request, or a failure response request as a management request, and further includes equipment information. This includes manufacturing equipment manuals. The plurality of managers each own a plurality of management terminals. The management method includes a step of reading identification information of a manufacturing facility to be managed among the plurality of manufacturing facilities by each of the plurality of managers using a corresponding management terminal among the plurality of management terminals. , a step of acquiring management information associated with the read identification information from the management server device as management information of the manufacturing equipment to be managed; and displaying the acquired management information of the manufacturing equipment to be managed. and a step of managing the manufacturing equipment to be managed based on the displayed management information.

According to the present invention, it is possible to improve the efficiency of managing manufacturing equipment regardless of the level of skill of the manager.

1 is a schematic diagram of a manufacturing equipment management system according to the present embodiment. 2 is a diagram showing an example of a display on a management terminal in the manufacturing equipment management system shown in FIG. 1. FIG. It is an example of a flowchart showing the manufacturing equipment management operation by the manufacturing equipment management system according to the present embodiment.

Hereinafter, an example of an embodiment of the present invention will be described with reference to the accompanying drawings. In addition, the same reference numerals are given to the same or corresponding parts in each drawing.

FIG. 1 is a schematic diagram of a manufacturing equipment management system according to this embodiment. As shown in FIG. 1, the manufacturing equipment management system 1 includes a plurality of manufacturing equipment 10, a plurality of manufacturing terminals 20, a management host device 30, a management server device 40, and a plurality of management terminals 50. The manufacturing equipment management system 1 is a system in which a plurality of managers manage a plurality of manufacturing equipment 10, such as regular maintenance, periodic inspection, and troubleshooting.

Each of the manufacturing equipment 10 manufactures a different type of electronic component, so that the plurality of manufacturing equipment 10 each manufactures a plurality of types of electronic components. Each of the manufacturing facilities 10 includes a manufacturing equipment 11 and a control device 12 .

Identification information 13 is given to each of the manufacturing equipment 10. More specifically, identification information 13 is given to the manufacturing apparatus 11 in each of the manufacturing facilities 10. Examples of the identification information 13 include a QR code (registered trademark), a one-dimensional barcode, RFID, and an AR marker.
The manufacturing device 11 is not particularly limited, but includes, for example, the above-mentioned hydrostatic press device (WIP).

The control device 12 is a device that includes a PLC (Programmable Logic Controller) and controls the manufacturing device 11. The control device 12 transmits manufacturing equipment information to the manufacturing terminal 20 and also to the management server device 40 via the management host device 30. The manufacturing equipment information includes manufacturing equipment failure information.

A manufacturing operator is placed in each manufacturing facility 10, and each manufacturing operator owns a manufacturing terminal 20. The manufacturing terminal 20 is an information processing terminal such as a tablet or a smartphone. The manufacturing terminal 20 displays information in response to operations by a manufacturing operator. The manufacturing terminal 20 communicates information with the management host device 30 in response to operations by a manufacturing operator. This information includes the above-mentioned manufacturing equipment information, for example, manufacturing equipment failure information.

The management host device 30 performs overall control of the manufacturing equipment management system 1 . The management host device 30 is an information processing device such as a PC. Note that the management host device 30 does not necessarily have to be provided, and the functions of the management host device 30 may be implemented in the management server device 40 or distributed among the manufacturing terminal 20, the management terminal 50, and the management server device 40. It may be implemented as

The management server device 40 is an information processing device such as a PC. The management server device 40 may be connected to the management host device 30 via a network. The management server device 40 manages the timing of periodic maintenance, periodic inspection, etc. for each manufacturing facility 10. The management server device 40 transmits information on management tasks such as regular maintenance or regular inspection for each manufacturing facility 10 to each of the management terminals 50 via the management host device 30 at the timing of regular maintenance or regular inspection.

In addition, when the management server device 40 receives failure information for each manufacturing facility 10 from each manufacturing facility 10 or each manufacturing terminal 20 via the management host device 30, the management server device 40 performs management tasks such as failure response for each manufacturing facility 10. information is transmitted to each of the management terminals 50 via the management host device 30.

Furthermore, the management server device 40 stores management information regarding each of the manufacturing facilities 10 in association with the identification information 13 of each of the manufacturing facilities 10. Management server device 40 transmits management information of manufacturing equipment 10 corresponding to identification information 13 to management terminal 50 in response to a request from management terminal 50 .

Each piece of management information includes a regular maintenance request, a regular inspection request, or a failure response request as a management request. Furthermore, each piece of management information includes a manufacturing equipment manual as equipment information. Further, each piece of management information may include maintenance history, inspection history, and failure history as equipment information, or may include a one-point manual based on these past histories. Note that the manufacturing equipment manual may be a video.

The management terminal 50 is a terminal owned by each of a plurality of managers. The management terminal 50 is an information processing terminal such as a tablet or a smartphone. The management terminal 50 is configured with an arithmetic processor such as a CPU (Central Processing Unit), a DSP (Digital Signal Processor), or an FPGA (Field-Programmable Gate Array). Various functions of the management terminal 50 are realized, for example, by executing programs (software) stored in a storage unit. The storage unit is composed of memories such as ROM (Read Only Memory), HDD (Hard Disk Drive), and SSD (Solid State Drive).

The management terminal 50 also includes an operation unit operated by the administrator, such as a keyboard or mouse with physical operation buttons, or a touch panel with virtual operation buttons. Furthermore, the management terminal 50 includes a display unit, such as a liquid crystal display or an organic EL display, for displaying information to the administrator. The management terminal 50 also includes an acquisition unit that acquires the identification information 13 of the manufacturing equipment 10, such as a camera that reads a QR code (registered trademark), a one-dimensional barcode, an AR marker, or the like, or a reader that reads an RFID.

Each of the management terminals 50 receives information on management tasks such as regular maintenance, periodic inspection, or troubleshooting for each manufacturing facility 10 from the management server device 40 via the management host device 30. Each of the management terminals 50 stores management task information for a predetermined period (for example, daily, half-day, weekly, monthly, etc.) of all the manufacturing facilities 10 to be managed among the plurality of manufacturing facilities 10. management task information (for example, the team task list screen in FIG. 2). That is, each of the management terminals 50 displays information on not only the management tasks of the administrator who owns the own terminal, but also the management tasks of all managed objects. Thereby, the management terminal 50 shares the management task information of all the manufacturing facilities 10 to be managed. Thereby, the administrator shares the management task information of all the manufacturing equipment 10 to be managed.

Further, the management terminal 50 reads the identification information 13 of the manufacturing equipment 10 to be managed indicated by the management task in response to the operation of the administrator.
In addition, the management terminal 50 transmits the management information associated with the read identification information 13 from the management server device 40 via the management host device 30 to the management information of the manufacturing equipment 10 to be managed, in accordance with the operation of the administrator. Obtain as information.

The management terminal 50 displays the acquired management information of the manufacturing equipment 10 to be managed, that is, management requests and equipment information, in response to operations by the administrator.

The management terminal 50 may predict the failure location and failure time based on the failure history in the equipment information of the management information. The management terminal 50 may issue a notification (for example, display a message) recommending replacement of the predicted failure location, for example, a part, a predetermined period of time before the predicted failure time. Note that the function of predicting a failure location and failure time may be implemented in the management server device 40.

Next, with reference to FIG. 3, the manufacturing equipment management operation (processing, method) by the manufacturing equipment management system described above will be described. FIG. 3 is an example of a flowchart showing the manufacturing equipment management operation by the manufacturing equipment management system according to the present embodiment.

When the manufacturing equipment 10 is managed by regular maintenance, regular medical checkup, etc., the management server device 40 manages the timing of regular maintenance, regular inspection, etc. for each manufacturing equipment 10, for example. The management server device 40 transmits information on management tasks such as regular maintenance or regular inspection for each manufacturing facility 10 to each of the management terminals 50 via the management host device 30 at the timing of regular maintenance or regular inspection.

On the other hand, when the manufacturing equipment 10 is managed in response to a failure, each of the manufacturing equipment 10 transmits failure information to the management server device 40 via the management host device 30, for example. The management server device 40 transmits information on management tasks such as troubleshooting for each manufacturing facility 10 to each of the management terminals 50 via the management host device 30. Alternatively, each of the manufacturing terminals 20 may transmit information on management tasks such as troubleshooting for each manufacturing facility 10 to each of the management terminals 50 via the management host device 30 by the operation of the manufacturing operator.

Then, each of the management terminals 50 stores management task information for a predetermined period (for example, one day, half a day, one week, or one month), and manages all the manufacturing operations to be managed in the plurality of manufacturing facilities 10. Display management task information for the equipment 10. That is, each of the management terminals 50 displays information on not only the management tasks of the administrator who owns the own terminal, but also the management tasks of all managed objects. Thereby, the management terminal 50 shares the management task information of all the manufacturing equipment 10 to be managed (step S1 in FIG. 3).

As shown in FIG. 2, the management task information includes a list (eg, a team task list screen) of management tasks (eg, tasks 1 to 4) for each manufacturing facility 10.
The management task information includes information indicating the work status for each management task. For example, a management task that has started work includes information such as the manager who started the work and the scheduled work time as work status information. Further, for example, a management task that has not yet been started includes "unassigned" information as work status information. Further, for example, a completed management task includes information about the manager who started the work and "completed" as work status information.

As a result, all management terminals 50 share management task information. In other words, all administrators share management task information. According to this, since information such as who is doing what and how long it takes is shared, mutual cooperation between administrators can be strengthened, and task management can be strengthened.

Here, the management task information is information for all administrators to share all management tasks. Therefore, the management task information notifies the administrator of the presence or absence of a management task, but does not notify the administrator of the content of the management task such as regular maintenance, periodic inspection, or troubleshooting. Therefore, the administrator next obtains the contents of the management task.

Specifically, the administrator approaches the manufacturing equipment 10 to be managed in the displayed management task (for example, by tapping task 1 in FIG. 2, the administrator can know the manufacturing equipment corresponding to task 1), The management terminal 50 reads the identification information 13 of the manufacturing equipment 10 to be managed, more specifically, the identification information 13 of the manufacturing equipment 11 in the manufacturing equipment 10 to be managed, and inputs the start of work to the management terminal 50 . Then, the management terminal 50 transmits the input task start information and the read identification information 13 of the manufacturing apparatus 11 to the management server device 40 via the management host device 30 (step S2 in FIG. 3). ).
The work start information of the management task is stored in the management task information of the management server device 40 and is shared in the management task information of each management terminal 50.

Here, in the case of failure handling, failure information such as an error code may be transmitted in advance from the manufacturing facility 10 to the management server device 40 via the management host device 30.

Alternatively, the failure information may be input by an administrator. In this case, the AI function of the management server device 40 or the management terminal 50 may be used to narrow down the details of the trouble based on, for example, a trouble database stored in the management server device 40.
For example, the trouble database has a tree structure in which trouble details are narrowed down step by step from primary trouble to secondary trouble. The AI function presents options based on the trouble database, and the administrator selects an option to investigate the content and cause of the trouble.
Note that when a new trouble occurs, the trouble database may be updated. Furthermore, when a predetermined amount of trouble details have been accumulated, the trouble details may be inventoried and accumulated from the trouble database.

Next, the management server device 40 searches for management information of the manufacturing equipment 10 to be managed, based on the work start information of the management task and the identification information 13 of the manufacturing equipment 11 in the manufacturing equipment 10 to be managed. In the case of failure handling, the management server device 40 further searches for management information of the manufacturing equipment 10 to be managed based on the failure information (step 3 in FIG. 3).

The management information includes management requests such as periodic maintenance requests, periodic inspection requests, and failure response requests, in other words, the contents of management tasks.
Furthermore, the management information includes equipment information such as manufacturing equipment manuals. Thereby, the efficiency of managing the manufacturing equipment 10 can be improved regardless of the level of skill of the manager.

Furthermore, the management information may include past maintenance history, inspection history, and failure history as equipment information, and may also include a one-point manual based on these past histories. According to this, the past management history or one-point manual can be viewed on the management terminal 50, so that the use of these files for administrator support can be increased.

Further, the manufacturing equipment manual may be a video. According to this, the efficiency of managing the manufacturing equipment 10 can be improved regardless of the level of skill of the manager.

Next, the management server device 40 transmits the searched management information, that is, the management request and equipment information, to the target management terminal 50 via the management host device 30. That is, the management terminal 50 acquires the management information of the manufacturing equipment 10 to be managed, that is, the management request and equipment information (step 4 in FIG. 3). At this time, the text information may be machine translated into a preset language. This allows even foreign managers to respond.

Next, the management terminal 50 responds to the administrator's operations (for example, results transmission in FIG. 2, inspection item list, report list, etc.; more specifically, manual, failure history, inventory list, inspection graph, etc.) , displays the acquired management information of the manufacturing equipment 10 to be managed, that is, the management request and equipment information (step 5 in FIG. 3). Thereby, based on the displayed information, the administrator can refer to equipment information such as equipment manuals in response to management requests such as regular maintenance requests, periodic inspection requests, or failure response requests, and manage the manufacturing equipment 10 to be managed. Perform management.

At this time, the management terminal 50 may predict the location and timing of the failure based on the failure history. The management terminal 50 may issue a notification (for example, display a message) recommending replacement of the predicted failure location, for example, a part, a predetermined period of time before the predicted failure time. This makes it possible to utilize the failure history, in other words, predictive monitoring information, and replace it before failure occurs. As a result, it is possible to avoid sudden stoppage of equipment due to failure, and it is possible to carry out production in a planned manner.

The administrator inputs the completion of the work into the management terminal 50 (for example, inputting an inspection, adding a request, etc. in FIG. 2). Then, the management terminal 50 transmits the input task completion information to the management server device 40 via the management host device 30. Then, the work completion information of the management task is stored in the management task information of the management server device 40 and shared in the management task information of each management terminal 50. Further, history information such as maintenance history, inspection history, failure history, etc. of the management server device 40 is updated.

Here, since the above-mentioned manufacturing equipment for electronic components such as multilayer ceramic capacitors includes various types of manufacturing equipment corresponding to various manufacturing processes, the management of the equipment is different. Specifically, equipment manuals are different, and management contents such as maintenance, inspection, and breakdowns are different.

In addition, even if the manufacturing equipment for electronic components such as the multilayer ceramic capacitors mentioned above is the same model, the equipment settings are different and the equipment management is different to accommodate the production of various types of electronic components. . Specifically, management standards for maintenance, inspection, failure, etc. are different, and in some cases, management with high precision (standards) is required. For example, in the above-mentioned hydrostatic press process, control with high accuracy (standard) on the order of several μm is required.

Therefore, the experience and skills of a skilled manager are required to understand the manual, management details, and management standards of the manufacturing equipment to be managed.

In this regard, according to the manufacturing equipment management system and method of the present embodiment, the management terminal 50 reads the identification information 13 of the manufacturing equipment 10 to be managed, and receives the management information associated with the identification information from the management server device 40, That is, the management request and equipment information are acquired, and the acquired management information of the manufacturing equipment 10 to be managed is displayed. Thereby, based on the displayed information, the administrator can refer to equipment information such as equipment manuals in response to management requests such as regular maintenance requests, periodic inspection requests, or failure response requests, and manage the manufacturing equipment 10 to be managed. can be managed. Thereby, even if there are many types of manufacturing equipment, the efficiency of managing the manufacturing equipment 10 can be improved regardless of the level of skill of the manager.

By the way, conventionally, management requests are communicated to individual managers and are not shared by all managers, which has led to an increase in the number of people waiting for management.
In this regard, according to the manufacturing equipment management system and method of the present embodiment, the plurality of management terminals 50 manage management task information for a predetermined period, and manage all the manufacturing equipment 10 to be managed in the plurality of manufacturing equipment 10. View task information. That is, each of the management terminals 50 displays information on not only the management tasks of the administrator who owns the own terminal, but also the management tasks of all managed objects. As a result, all the management terminals 50 share the management task information of all the manufacturing equipment 10 to be managed, and all administrators share the management task information of all the manufacturing equipment 10 to be managed, which reduces the waiting time for management. be able to.

Additionally, in the past, mutual cooperation between administrators was weak and task management was weak.
In this regard, according to the manufacturing equipment management system and method of the present embodiment, the management task information includes information indicating the work status for each management task. This allows administrators to share information such as who is doing what and how long it takes, so mutual cooperation between administrators can be strengthened and task management can be strengthened.

In addition, past maintenance history, inspection history, failure history, or management work manuals based on these histories have traditionally been paper files, making reference to them cumbersome and making it difficult to fully utilize these files for administrator support. There was a tendency not to be able to do so.
In this regard, according to the manufacturing equipment management system and method of the present embodiment, past maintenance history, inspection history, failure history, and one-point manuals based on these past histories can be viewed on the management terminal 50. The utilization of these files for administrator support can be increased.

Further, the manufacturing equipment manual may be a video. According to this, the efficiency of managing the manufacturing equipment 10 can be improved regardless of the level of skill of the manager.

Further, according to the manufacturing equipment management system and method of the present embodiment, the failure location and failure time are predicted based on the failure history, and a notification recommending replacement of the predicted failure location is sent before the predicted failure time. conduct. This makes it possible to utilize the failure history, in other words, predictive monitoring information, and replace it before failure occurs. As a result, it is possible to avoid sudden stoppage of equipment due to failure, and it is possible to carry out production in a planned manner.

Although the embodiments of the present invention have been described above, the present invention is not limited to the embodiments described above, and various changes and modifications are possible. In the embodiment described above, a method for managing manufacturing equipment for manufacturing multilayer ceramic capacitors has been described. However, the present invention is not limited thereto, and can be applied to management such as periodic maintenance, periodic inspection, and failure response of various manufacturing facilities including various industrial machines.

1 Manufacturing equipment management system 10 Manufacturing equipment 11 Manufacturing equipment 12 Control device (PLC)
13 Identification information 20 Manufacturing terminal 30 Management host device 40 Management server device 50 Management terminal

Claims (16)

A system in which multiple managers manage multiple manufacturing facilities that manufacture multiple types of electronic components,
the plurality of manufacturing facilities, each of which is given identification information;
a management server device that stores a plurality of management information regarding each of the plurality of manufacturing facilities in association with the identification information of each of the plurality of manufacturing facilities;
a plurality of management terminals each owned by the plurality of administrators;
Equipped with
Management of the plurality of manufacturing equipment includes regular maintenance, regular inspection, or troubleshooting,
Each of the plurality of pieces of management information includes a regular maintenance request, a regular inspection request, or a failure response request as a management request, and further includes a manufacturing equipment manual as equipment information,
Each of the plurality of management terminals is
reading identification information of a manufacturing facility to be managed among the plurality of manufacturing facilities;
Obtaining management information associated with the read identification information from the management server device as management information of the manufacturing equipment to be managed;
displaying the acquired management information of the manufacturing equipment to be managed;
Manufacturing equipment management system. Each of the plurality of manufacturing facilities includes a manufacturing device and a control device,
The identification information is identification information of the manufacturing device in each of the plurality of manufacturing facilities,
The manufacturing equipment management system according to claim 1. The plurality of management terminals share the management task information of all the manufacturing equipment to be managed in the plurality of manufacturing equipment, which is management task information for a predetermined period,
The management task information is information on management tasks for regular maintenance, periodic inspection, or failure response, and includes a list of management tasks for each manufacturing equipment,
Each of the plurality of management terminals displays the management task information and reads identification information of the manufacturing equipment to be managed from among the management task information.
The manufacturing equipment management system according to claim 1 or 2. 4. The manufacturing equipment management system according to claim 3, wherein the management task information includes information indicating work status for each management task. 5. The manufacturing equipment management system according to claim 1, wherein the management information further includes a maintenance history, an inspection history, and a failure history as the equipment information. 6. The manufacturing equipment management system according to claim 1, wherein the management information further includes a one-point manual based on past history as the equipment information. 7. The manufacturing equipment management system according to claim 1, wherein the manufacturing equipment manual as the equipment information in the management information is a video. The management terminal or the management server device predicts a failure location and failure time based on the failure history,
The management terminal sends a notification recommending replacement of the predicted failure location before the predicted failure time.
The manufacturing equipment management system according to claim 5. A management method in which multiple managers manage multiple manufacturing facilities that respectively manufacture multiple types of electronic components, the method comprising:
Each of the plurality of manufacturing facilities is given identification information,
A plurality of management information regarding each of the plurality of manufacturing facilities is stored in a management server device in association with the identification information of each of the plurality of manufacturing facilities,
Management of the plurality of manufacturing equipment includes regular maintenance, regular inspection, or troubleshooting,
Each of the plurality of pieces of management information includes a regular maintenance request, a regular inspection request, or a failure response request as a management request, and further includes a manufacturing equipment manual as equipment information,
The plurality of administrators each own a plurality of management terminals,
The management method includes each of the plurality of managers using a corresponding management terminal among the plurality of management terminals,
a step of reading identification information of a manufacturing facility to be managed among the plurality of manufacturing facilities;
a step of acquiring management information associated with the read identification information from the management server device as management information of the manufacturing equipment to be managed;
displaying the acquired management information of the manufacturing equipment to be managed, and managing the manufacturing equipment to be managed based on the displayed management information;
Manufacturing equipment management methods, including: Each of the plurality of manufacturing facilities includes a manufacturing device and a control device,
The identification information is identification information of the manufacturing device in each of the plurality of manufacturing facilities,
The manufacturing equipment management method according to claim 9. The plurality of management terminals share the management task information of all the manufacturing equipment to be managed in the plurality of manufacturing equipment, which is management task information for a predetermined period,
The management task information is information on management tasks for regular maintenance, periodic inspection, or failure response, and includes a list of management tasks for each manufacturing equipment,
In the reading step, the management task information is displayed, and identification information of the manufacturing equipment to be managed is read from the management task information.
The manufacturing equipment management method according to claim 9 or 10. 12. The manufacturing equipment management method according to claim 11, wherein the management task information includes information indicating work status for each management task. 13. The manufacturing equipment management method according to claim 9, wherein the management information further includes a maintenance history, an inspection history, and a failure history as the equipment information. 14. The manufacturing equipment management method according to claim 9, wherein the management information further includes a one-point manual based on past history as the equipment information. The manufacturing equipment management method according to any one of claims 9 to 14, wherein the manufacturing equipment manual as the equipment information in the management information is a video. predicting a failure location and failure time based on the failure history by the management terminal or the management server device;
A step in which the management terminal issues a notification recommending replacement of the predicted failure location prior to the predicted failure time;
The manufacturing equipment management method according to claim 13, further comprising:

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