KR102410250B1 - Method for managing product-worker customized smart factory platform and server thereof - Google Patents

Abstract

Product-worker customized smart factory platform operating method according to an embodiment of the present invention (a) the server manages one or more base information linked to the production of one or more products among the first to Nth (N is an integer greater than or equal to 2) products (b) the server receives and registers a work instruction including work information for a worker who will be responsible for the production of one or more of the first to Nth products from the manager, and (c) and the server receiving and registering the status of work details for the work instruction from the worker.

Description

Product-worker customized smart factory platform operation method and operation server

The present invention relates to a product-worker customized smart factory platform operation method and operation server. In more detail, the operation method and operation of a product-worker customized smart factory platform that can efficiently instruct workers to work in response to the production process of various products and effectively manage all information related to product production while being handled in the factory It's about the server.

With the advent of Internet of Things (IoT) technology, attempts to transmit and receive meaningful information by connecting various devices through a network continue, and machines deployed in factories are no exception.

A factory to which this Internet of Things technology is applied is called a Smart Factory. is not implemented, and construction of a smart factory platform that can effectively manage all types of objects handled in the factory and all meaningful information derived from them must be preceded.

The conventional smart factory platform stays in the one-dimensional form of monitoring the status of the machines placed in the factory. The factory is a place where manufacturing is conducted, and the types of machines deployed and the production process applied according to the types of products produced. This is because it is difficult to build a smart factory platform that can be universally applied to all factories because of the innumerable peculiarities, and the construction cost is also significant.

On the other hand, since a worker is assigned to the machines deployed in most factories except for fully automated factories to perform the production process, the conventional factory manager instructs the worker to work by e-mail or by using a wired or paper document. It caused inconvenience in the work order, and there is a problem that manpower consumption occurs because the manager had to write and manage work orders by reflecting the use of the machine himself/herself to instruct the work and the production process.

Therefore, it is possible to effectively manage all types of objects handled in the factory and all meaningful information derived from them, and at the same time, it is possible to apply universally at a relatively economical cost to all factories, and it is possible to efficiently create and manage work orders. A factory platform is required. The present invention relates to this.

Republic of Korea Patent Publication No. 10-2018-0077948 (2018.07.09)

The technical problem to be solved by the present invention is to provide a product-worker-customized smart factory platform operation method and operation server that can effectively manage all types of objects handled in the factory and all meaningful information derived therefrom.

Another technical problem to be solved by the present invention is to provide a product-worker-customized smart factory platform operation method and operation server that can be universally applied at a relatively economical cost to all factories.

Another technical problem to be solved by the present invention is to provide a product-worker-customized smart factory platform operation method and operation server that can even efficiently create and manage work instructions.

The technical problems of the present invention are not limited to the technical problems mentioned above, and other technical problems not mentioned will be clearly understood by those skilled in the art from the following description.

A product-worker customized smart factory platform operation method according to an embodiment of the present invention for achieving the above technical problem is (a) the server is linked to the production of one or more products among the first to Nth (N is an integer of 2 or more) products Receiving and registering one or more base information from the manager, (b) the server receives from the manager a work order including work information for a worker who will be responsible for the production of one or more of the first to Nth products, and (c) the server receives and registers the status of work details for the work instruction form from the worker.

According to an embodiment, the step (a) includes: (a-1) receiving and registering first base information on one or more materials used in the production of the product from the manager, (a-2) the product receiving and registering second base information on one or more molds corresponding to , from the manager, (a-3) receiving and registering third base information on one or more machines to be mounted with the mold from the manager , (a-4) receiving from the manager and registering fourth base information on peripheral devices that can be interlocked with one or more of the materials, molds and machines through a network, and (a-5) including the one or more machines It may include one or more of the step of receiving and registering the fifth base information on the line to be received from the manager.

According to an embodiment, the second base information about the mold may be one or more of a manufacturer, a manufacturing number, a manufacturing specification, a name, a type, and a number of the mold.

According to an embodiment, the third base information about the machine may be one or more of a name, a type, a number, a maximum daily production volume, a manufacturer, a manufacturer number, detailed manufacturer information, and a photo of the machine.

According to an embodiment, the fifth base information about the line may be one or more of a number, detailed information of the line, a type of one or more machines included in the line, a number, and a name.

According to an embodiment, when the type of one or more machines included in the line is received from the manager, a first list including information on the same type of machine as the one or more types of the received machine is displayed by the operator. It is output to the terminal, and the first list can be output by distinguishing one or more machines included in a line different from the line and one or more machines that can be added to the line.

According to an embodiment, when selection information on one or more machines included in the first list is received from the manager, one or more machines that have received the selection information and one that can be disposed on, before or after the production process A second list including information on the above machines may be output to the terminal of the operator.

According to one embodiment, the step (b) is. (b-1) receiving and registering first job information on one or more lines to be put in by the operator and one or more machines to be in charge from the manager, (b-2) one or more products to be produced by the operator receiving and registering second job information for at least one of a category, a product number, and a product name from the manager, (b-3) a third job for the production target amount of one or more products for which the worker will be responsible for production Receiving information from the manager and registering, (b-4) receiving from the manager fourth job information for a target job period including a job start date and a job completion date of one or more products for which the worker will be responsible for production receiving and registering, (b-5) receiving and registering fifth job information including selection information on a worker who will be in charge of production and selection information on a sharer to share it from the manager; and (b- 6) receiving an attachment file related to at least one of the first job information to the fifth job information from the manager and registering the same.

According to an embodiment, between the steps (b) and (c), (b') further comprising the step of outputting the registered work instruction to the terminal of the worker as work details, the work details are, The history status is initially set to "Standby" and can be output in the first color.

According to an embodiment, the status of the work history in step (c) further includes one or more of progress, stop, completion, and sharing, and may be output by individually matching one of the second to fifth colors. .

According to the present invention as described above, it is possible to integrate and manage all meaningful information related to product production from materials to lines, and at the same time provide a separate notification so that an error does not occur in the registration of information linked with each other Therefore, there is an advantage that the efficient operation of the factory is possible.

In addition, since all meaningful information is stored on the server itself or in a separate database, information can be accumulated according to use, which has the effect of being reflected in factory operation by turning it into big data.

In addition, in line registration, machines included in other lines are distinguished and output, and when one or more machines are selected, a list including information on other machines that can be placed in front or behind is outputted reflecting the production process , it has the effect of being able to easily build a line even if there are many machines deployed in the factory.

In addition, inventory management of materials, orders for molds, machines and peripheral devices, and A/S can be easily performed on the platform, which has the effect of preventing unnecessary labor consumption.

In addition, it is possible to manage both general information managed by all factories and special information managed only by some factories, so it has the effect that it can be customized and easily introduced to various factories.

In addition, although only the cost of building the server is primarily borne, individual items can be easily customized, so it has the advantage of being able to introduce a smart factory at a relatively economical cost.

In addition, since the easy registration of the work order given to the worker and the registration of the status of the work history can be facilitated, there is an effect that it is possible to bring efficiency to the production management of the product as well as the worker management.

Effects of the present invention are not limited to the effects mentioned above, and other effects not mentioned will be clearly understood by those skilled in the art from the following description.

1 is a diagram showing the overall configuration included in a product-worker customized smart factory platform operation server according to a first embodiment of the present invention.
2 is a flowchart illustrating representative steps of a product-worker customized smart factory platform operating method according to a second embodiment of the present invention.
3 is a flowchart illustrating specific steps included in step S210 shown in FIG. 2 .
4 is a flowchart illustrating specific steps included in step S220 shown in FIG. 2 .

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Advantages and features of the present invention, and a method for achieving them will become apparent with reference to the embodiments described below in detail in conjunction with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but may be implemented in various different forms, and only these embodiments allow the publication of the present invention to be complete, and common knowledge in the technical field to which the present invention pertains. It is provided to fully inform the possessor of the scope of the invention, and the present invention is only defined by the scope of the claims. Like reference numerals refer to like elements throughout.

Unless otherwise defined, all terms (including technical and scientific terms) used herein may be used with the meaning commonly understood by those of ordinary skill in the art to which the present invention belongs. In addition, terms defined in a commonly used dictionary are not to be interpreted ideally or excessively unless clearly defined in particular. The terminology used herein is for the purpose of describing the embodiments and is not intended to limit the present invention. In this specification, the singular also includes the plural unless specifically stated otherwise in the phrase.

As used herein, “comprises” and/or “comprising” refers to a referenced component, step, operation and/or element of one or more other components, steps, operations and/or elements. The presence or addition is not excluded.

1 is a view showing the overall configuration included in the product-worker customized smart factory platform operation server 100 according to a first embodiment of the present invention.

However, this is only a preferred embodiment for achieving the object of the present invention, some components may be added or deleted as necessary, and of course, a role performed by one component may be performed by another component.

The product-worker customized smart factory platform operation server 100 according to the first embodiment of the present invention includes a processor 10, a network interface 20, a memory 30, a storage 40, and a data bus 50 connecting them ), and the actual implementation form, such as a tangible physical server such as an in-house system and a space rental system, or an intangible cloud server, may be any.

The processor 10 controls the overall operation of each component. The processor 10 may be any one of a central processing unit (CPU), a micro processor unit (MPU), a micro controller unit (MCU), or a type of processor widely known in the art to which the present invention pertains. In addition, the processor 10 may perform an operation on at least one application or program for performing the product-worker customized smart factory platform operating method according to the second embodiment of the present invention.

The network interface 20 supports wired and wireless Internet communication of the product-worker customized smart factory platform operation server 100 according to the first embodiment of the present invention, and may support other known communication methods. Accordingly, the network interface 20 may be configured to include a corresponding communication module.

The memory 30 stores various information, commands and/or information, and one or more computer programs 41 from the storage 40 to perform the product-worker customized smart factory platform operating method according to the second embodiment of the present invention. ) can be loaded. Although RAM is illustrated as one of the memories 30 in FIG. 1 , it goes without saying that various storage media can be used as the memory 30 .

The storage 40 may non-temporarily store one or more computer programs 41 and the mass network information 42 . The storage 40 is a non-volatile memory, such as a read only memory (ROM), an erasable programmable ROM (EPROM), an electrically erasable programmable ROM (EEPROM), a flash memory, a hard disk, a removable disk, or in the art to which the present invention pertains. It may be any one of widely known computer-readable recording media.

The computer program 41 is loaded into the memory 30, so that the one or more processors 10 (a) one or more base information associated with the production of one or more of the first to Nth (N is an integer equal to or greater than 2) products. An operation to receive and register from a manager, (b) an operation to receive and register a work instruction including work information on a worker who will be responsible for production of one or more of the first to Nth products from the manager, and (c) the worker It is possible to perform an operation of receiving and registering the status of the work details for the work order from the

The operation performed by the computer program 41 simply mentioned so far can be viewed as a function of the computer program 41, and a more detailed description is a product according to the second embodiment of the present invention - operator-customized smart factory platform operation It will be described later in the description of the method.

The data bus 50 serves as a movement path for commands and/or information between the processor 10 , the network interface 20 , the memory 30 , and the storage 40 described above.

The above-described product according to the first embodiment of the present invention - worker-customized smart factory platform operation server 100 includes information received from various machines deployed in the factory, information transmitted to them, and information about work orders. Significant information can be stored and stored by itself or transmitted to an external information base (not shown) to be stored and stored separately. In the latter case, information can be transmitted in real time or periodic transmission can be performed by setting a transmission period.

Hereinafter, a product-worker customized smart factory platform operating method according to a second embodiment of the present invention will be described with reference to FIGS. 2 to 4 .

2 is a flowchart illustrating representative steps of a product-worker customized smart factory platform operating method according to a second embodiment of the present invention.

However, this is only a preferred embodiment in achieving the object of the present invention, and of course, some steps may be added or deleted as necessary, and any one step may be included in another step and performed.

Meanwhile, in the following description, the product-worker customized smart factory platform operation server 100 according to the first embodiment of the present invention is named as the server 100 for convenience, but the description is continued using the same reference numerals.

First, the server 100 receives and registers one or more pieces of base information related to the production of one or more of the first to Nth products from the manager (S210).

Here, N is an integer of 2 or more, and more specifically, the product according to the second embodiment of the present invention may be the number of types of products produced in a factory to which a method for operating a customized smart factory platform for workers is applied.

On the other hand, the base information is information related to the production of one or more of the first to Nth products, for example, the first base information about the material used for product production, the second about the one or more molds corresponding to the product base information, third base information about one or more machines on which the mold is to be mounted, fourth base information about peripheral devices that are interoperable via a network with one or more of materials, molds and machines, and article about a line comprising one or more machines It may be one or more of the five base information, and the first base information to the fifth base information may be different depending on the type of product produced in the factory, but the first base information to the fifth base information described above may be used as the base information Let the description continue with a representative example of

3 is a flowchart illustrating specific steps included in step S210, step S210 is a step of receiving and registering first base information on one or more materials used for product production from a manager (S210-1), corresponding to the product A step of receiving and registering the second base information on one or more molds from the manager (S210-2), receiving and registering third base information about one or more machines on which the mold is to be mounted from the manager (S210-3), Receiving and registering the fourth base information about peripheral devices that can be interlocked through a network with one or more of materials, molds, and machines (S210-4) and the fifth base information about a line including one or more machines It may include one or more steps of receiving from the manager and registering (S210-5).

Here, the manager may be a representative manager of the factory itself applying the product-worker customized smart factory platform operating method according to the second embodiment of the present invention or a general manager who is authorized to instruct work to the worker, Information reception may be performed by the administrator inputting base information into the administrator's terminal (not shown), which is an electronic device having a network function, such as a computer, smart phone, PDP, PMP, etc. interlocked with the server 100 .

The first base information about one or more materials used for product production may be one or more of a name, type, quantity, company number, stocking date, manufacturer and manufacturing number of the material, and the material includes one or more materials as well as raw materials used for product production. Intermediate materials and raw materials processed from the above raw materials can all be included, and the first base information on materials is universal information managed by all factories regardless of the types of products produced by the factories.

The first base information on these materials is information that is linked with one or more of the second to fifth base information to be described later. This is because the underlying information is in a relationship that can organically influence each other.

The first base information for the registered material can be output as a material information list, and the first base information registered on the material information list can be modified. When the quantity of material is short and additional warehousing is required, the warehousing application can be easily performed. In this case, a real-time notification is sent to the manufacturer of the material, including Since even the stocking schedule can be registered, it is possible to fundamentally prevent a setback in product production due to insufficient materials by efficiently managing the quantity of materials, and it can be effectively used in managing the production schedule.

In addition, when the quantity of material falls below a preset quantity, it can be implemented to automatically send a notification to the manager or to allow the server 100 to perform a warehousing application by itself. By having the person check the details of the application for warehousing, it is possible to take immediate action if the application for warehousing requires correction.

More specifically, in the automatic warehousing application by the server 100, in principle, the warehousing application is performed for the predetermined quantity set by the manager, but the minimum quantity and the current quantity of materials that need to be kept in stock according to the setting of the manager It can also be implemented to calculate the difference in , and apply only for the quantity corresponding to the difference.

The second base information about one or more molds corresponding to the product may be one or more of a manufacturer, a manufacturing number, a manufacturing specification, a name, a type, and a number of the mold, and the second base information about the mold is that the product produced in the factory is a mold. This is special information managed only in the case of products produced using

In the case of factories that produce products using molds, molds are generally provided by external companies, and maintenance and repair are required depending on use. this is required

The second base information about the mold is closely related to the first base information about the material and the third base information about the machine to install the mold, so the quantity of products produced by the machine to install the mold using the material In response, the lifespan of the mold decreases, and if the first base information on these materials and the third base information on the machine to which the mold is installed are monitored together, the lifespan of the mold can be managed efficiently.

The second base information about the registered mold can be output as a mold information list, and the second base information registered on the mold information list can be modified, and the mold information list includes the first base information about the material as well as the registered second base information. One or more of the information on the quantity of materials according to the standard and the quantity of products produced through the machine equipped with the mold may be further included, and information on the remaining life of the mold reflecting this may be additionally included.

Furthermore, when the remaining life of the mold falls below the preset life, a notification can be automatically sent to the manager or the server 100 can be implemented so that the mold maker can apply for a new mold order by itself. In the latter case, the order request history is sent to the manager so that the manager can check the order application details, so that if there is a need to modify the order request, immediate action can be taken.

On the other hand, the name, type, and number of the mold among the second base information about the mold can be registered by receiving the name, type, and number given by the manufacturer of the mold as it is, but it may be difficult to grasp at a glance from the operator's point of view because it is given by the manufacturer. Therefore, it will of course be said that the product according to the second embodiment of the present invention can be registered by the administrator by assigning their own name, type, and number to match the current state of the factory to which the product-worker-customized smart factory platform operating method is applied.

The third base information about the one or more machines on which the mold is to be mounted may be one or more of the machine's name, type, number, manufacturer, maximum production per day, manufacturer number, manufacturer detailed information and photos, and the third base information about the machine is It is universal information managed by all factories regardless of the types of products produced by the factory.

Except for home-made handicraft-type factories, it is common for factories that are engaged in manufacturing to arrange machines used for product production. It can be said that the need for infrastructure information management is very great.

The name, type, and number of the machine among the third-based information about the machine can be registered by receiving the name, type, and number given to the manufacturer of the machine as it is. According to the second embodiment of the present invention, the product-worker-customized smart factory platform operation method according to the present invention can be registered by the administrator by assigning his or her own name, type, and number to match the current state of the factory.

On the other hand, since the manufacturer number and manufacturer detailed information of the machine among the third base information about the machine are information related to after-sales service or replacement of the machine, the manufacturer number and manufacturer detailed information given by the manufacturer are kept as they are, except in extremely exceptional cases. It would be advisable to register.

The third base information about the registered machine can be output to the machine information list, and the third base information registered on the machine information list can be modified. It may further include one or more of information and information on whether or not there is a failure, through which it may be possible to efficiently manage a machine for producing a product.

Although it is common for recent machines to have a longer usable time than before due to technological advances, in the case of factories operating in manufacturing, it is common for workers to operate the machine day and night while standing in shifts. The remaining life is inevitably reduced, and if a new machine is ordered after the remaining life of the machine has expired, it may become impossible to produce a product for the time required for machine manufacturing, delivery and deployment.

In order to prevent such a situation, the machine information list includes information on the running time of the machine, and according to that purpose, the information on the machine running time can be updated in real time in conjunction with the running time of the machine, in this case It should be assumed that the machine is linked with the server 100 by having a network function.

For example, if the machine manufacturer recommends that the usable time of the machine is 10,000 hours, when the third base information about the machine is first registered, the machine's running time is output as 0 in the machine information list, and then the machine is restarted. The running time may be updated in real time in response to the running time, and the server 100 automatically sends a notification to the manager or the server 100 automatically sends a notification when the running time of the machine exceeds a predetermined time compared to the available time. It can be implemented so that the machine manufacturer can independently apply for a new machine order. In the latter case, the order request is sent to the manager so that the manager can check the order request. can take it

On the other hand, if the machine is used in accordance with the user manual, the possibility of malfunction can be reduced. There may be situations where production becomes impossible.

In order to prevent such a situation, the machine information list includes information on whether or not the machine is malfunctioning, and according to that purpose, the information on whether the machine is malfunctioning can be updated in real time by interworking with the server 100, in this case Again, it should be assumed that the machine is linked with the server 100 by having a network function.

More specifically, information on whether or not the machine is malfunctioning includes information on large and small errors that occur in all situations, such as the machine's running state or idle state, and the need for replacement according to the remaining life of parts included in the machine. Information, information on a state requiring entry into an idle state after driving for a long time, and the like, may be transmitted to the server 100 in the form of a code indicating each piece of information.

In addition, it can be implemented to send a notification to the manager or the manufacturer of the machine at the same time when information on whether or not the machine is malfunctioning is transmitted to the server 100, but depending on the type of failure, the manager can take its own measures. Since there may be cases, it may be implemented so that a notification can be sent to the manager for a failure that can be addressed by itself, and to the manufacturer of the machine for a failure that cannot be taken by itself.

On the other hand, in the latter case, since the notification of a failure that can be self-actuated is sent only to the manager, the manufacturer of the machine may not be aware of the fact that the failure has occurred, thus avoiding the hassle of receiving all notifications. Even if excluded, it is necessary to check the machine usage history including the failure of the customer to whom the machine was sold.

In this case, the server 100 can transmit to the manufacturer of the machine as log information of all usage details of the machine, including the notification of failures that can take action on its own at a preset period, as log information, the server 100 is to perform the same role as ECU (Electronic Control Unit).

On the other hand, since a notification is sent to the manufacturer of the machine for a failure that cannot be taken by itself, the manufacturer of the machine transmits the A/S visit date to the server 100, and the server 100 can output it to the machine information list, , If it is difficult to visit A/S because the manager is absent on that day, the request to change the A/S visit date can be performed at once on the machine information list, and vice versa. That is, the A/S visit request date input by the administrator into the server 100 is transmitted to the manufacturer of the machine. Then you will be able to print it on the machine information list.

The fourth base information about a peripheral device that can be interlocked with one or more of a material, a mold, and a machine through a network may be one or more of a name, type, number, manufacturer, manufacturer number, manufacturer detailed information, and a picture of the peripheral device, The fourth base information on ' is universal information managed by all factories regardless of the types of products produced by the factory.

Since the fourth base information about the peripheral device is basically the same as the third base information about the machine, a detailed description will be omitted to prevent duplicate description, and only the differences will be described.

Since a peripheral device is a device that can be interlocked with one or more of materials, molds, and machines through a network, it must have a network function as the next, and the same will be said for materials, molds, and machines.

On the other hand, in the case of a machine, it is not awkward to have a network function because various parts are aggregates.

In the case of materials, the size of individual materials may make it impossible to attach a network module, and in most cases it is not appropriate to attach a network module to each individual material from the viewpoint of cost. A network module can be attached to the unit of the aggregate. For example, if 100,000 pieces of material A are ordered and received, one network module is attached to the material assembly A of 100,000 pieces, and the attachment location of the network module may be the packaging container or pallet of the material assembly A. .

If the network module is attached to such a material assembly, management information on the current location, stocking, outgoing, etc. of the material assembly is transmitted to the server 100, so that management of the material together with the first base information on the material described above is more efficient can be achieved with

In the case of a mold, it may not be possible to attach a network module depending on the size of the product to be produced, and since the unit price of the mold itself is relatively high, attaching the network module is not a big burden in terms of cost. Therefore, if the mold is large enough to attach the network module, it will be possible to attach the network module to the area except for the area where the machine is installed and the area where the product is printed. If it is a mold with a tag, the network module in the form of a tag can be connected to the outside of the mold using connection means such as a thread, a rubber band, or an electric wire.

On the other hand, when a product is produced using a mold, the product is produced by interlocking the upper and lower molds. The upper and lower molds can be viewed as one set, and the network module can be installed individually or in the upper and lower molds. It can be attached or connected, and in some cases, it may be possible to integrate and connect the upper and lower molds in a line that does not interfere with the mounting of the machine.

If the network module is attached to such a mold, management information on the current location of the mold, whether it is used, etc. is transmitted to the server 100, so that management of the mold together with the second base information about the mold described above can be achieved more efficiently. .

Since most of the network modules described above are indoors in the factory itself, they are smaller in size than GPS modules, such as RFID modules, Wi-Fi modules, Zigbee modules, and Bluetooth modules, and are less affected by other objects in the indoor space. It would be preferable to select .

Let's go back to the description of peripheral devices.

Peripheral devices are devices that can be interlocked with one or more of materials, molds, and machines through a network and at the same time assist them. It would be desirable to have a network module that supports the same network as the network module installed in the machine.

The fifth base information for a line including one or more machines may be one or more of a number, detailed information of the line, a type, number and name of one or more machines included in the line, and the fifth base information for the line is a factory This is special information managed only when the product produced by the company is a product that is completed through one or more machines.

The fifth base information for the line can be registered only after the registration of the third base information for the machine described above is preceded, and one or more machines are required for the line itself, and registration of a line means one included in the line. This is because it is a registration for more than one machine.

Therefore, when the server 100 receives one or more types of machines included in a line from the manager for line registration, the received machine is included in the corresponding line, and if this process is repeated multiple times for the corresponding line, a plurality of Lines containing machines can be registered.

In addition, since it is possible to register a line by simultaneously selecting a plurality of machines while registering one line, the arrangement order of the machines included in the line may become a problem.

In this case, the administrator can individually adjust the arrangement order of the machines, and if the server 100 has the production process information for the products produced in the factory, the arrangement order of the machines can be automatically adjusted in response to the production process. You can also adjust it.

On the other hand, if there are many types of machines deployed in the factory or many types of products to be produced, and if the product has to go through a complex production process, since the manager may have difficulties in registering individual lines one by one, the server 100 may provide security measures for this. It will be described below.

When the type of one or more machines included in the line is received from the manager, the server 100 may output to the operator's terminal a first list including information on the same type of machine as the received one or more types of machines. In the first list, one or more machines included in a line different from the corresponding line and one or more machines that can be added to the corresponding line may be distinguished and output.

For example, when the administrator selects "press machine 1" and the server 100 receives it, the first list includes information about "press machine 2 to press machine 5" that have been previously registered, press machine 2 and when the press machine 4 is included in another line, the press machine 2 and the press machine 4 and the press machine 3 and the press machine 5 are separately output.

More specifically, distinguishing and outputting are related to visual distinctions, so on the first list, press machine 2 and press machine 4 and press machine 3 and press machine 5 are printed with different colors, or press machine 2 and press machine 4 , but it may be implemented so that the administrator cannot select itself, and press machine 2 and press machine 4 themselves may not be output. In this case, there will be no confusion for the manager in selecting the machine to be included in the line, and the machine operation and line management will be easily achieved.

Furthermore, when receiving selection information for one or more machines included in the first list from the manager, the server 100 may include one or more machines that have received the selection information and one or more machines that may be disposed on, before or after the production process. A second list including information about the machine may be output to the operator's terminal.

This can be very useful when the product has to go through a complicated production process as mentioned above. For example, when the server 100 receives this by selecting "press machine 1", the press machine in the production process “Feeder 1” and “Feeder 2” that can be placed before or after 1 are included in the second list and output.

Since this second list is output only when a machine is selected by the administrator after the first list is output, the machine included in the second list can be viewed as a machine with no possibility of being included in another line. Even if the product goes through a complex production process, it will be easy to register the line.

The specific steps included in step S210 have been described with reference to FIG. 3 so far, and one or more steps from steps S210-1 to S210-5 may be included in step S210, but as described above, the first base information to the first 5 Since the base information is organically related information, it would be desirable to include all steps if possible.

Furthermore, in addition to the first to fifth base information, product information including a product name, a product number, a category to which a product belongs, etc. may be received and registered from the manager, and the product information is the first to fifth base information. One or more of the base information may be linked.

On the other hand, in the case of a factory to which only some of the first to fifth base information is applied, it is possible to easily customize the base information, so that a smart factory platform optimized for individual factory situations can be rescued.

Let us return to the description of FIG. 2 again.

If the base information is received from the manager and registered, the server 100 receives and registers a work instruction including work information for a worker who will be responsible for production of one or more of the first to Nth products from the manager (S220).

If step S210 described above is a step related to information related to product production, step S220 to be described below is a step related to information related to a worker who will produce a product.

4 is a flowchart showing specific steps included in step S220, step S220 is a step of receiving and registering first job information on one or more lines to be put in by an operator and one or more machines to be responsible from a manager (S220-1) , receiving and registering second job information for one or more of a category, product number, and product name for one or more products for which the operator will be responsible for production (S220-2), one or more products for which the operator will be responsible for production Receiving and registering the third job information on the target production amount from the manager (S220-3), the fourth for the target job period including the job start date and the job completion date of one or more products that the worker will be responsible for production A step of receiving and registering job information from the manager (S220-4), receiving and registering fifth job information including selection information about a worker who will be in charge of production and selection information about a sharer to share it from the manager ( S220-5) and receiving an attached file related to one or more of the first to fifth job information from the manager and registering (S220-6) may include one or more steps.

The first job information is information on one or more lines to be put in by the operator and one or more machines to be in charge, where the machine means a registered machine included in the line described above, You can easily designate a person to be responsible for.

For example, if "press machine 1" and "press machine 2" are registered in "line 1", the first operation information may be "line 1 / press machine 1" or "line 1 / press machine 2", In the case of machines included in the same line, since they are generally arranged in adjacent positions, the first job information can be registered for a plurality of machines for the same line, for example, "Line 1 / Press machine" to the same operator. 1" and "line 1 / press machine 2" can be registered simultaneously as the first operation information.

On the other hand, if a specific operator has the capacity for one type of machine, the same type of machine belonging to different lines can be simultaneously registered as the first operation information, for example, "Line 1 / Press machine" 1" and "line 2/press machine 3" may be registered as the first operation information.

The second job information is information about one or more of the category, product number, and product name of one or more products for which the operator is responsible for production. In addition, workers can identify at a glance which products they will be responsible for producing.

In relation to the second job information, there are also frequent cases in which one worker is in charge of the entire production process for one product, for example, a case in which one worker is in charge of all of the line 1 producing the product 1. In this case, it is possible to build a smart factory platform optimized for the characteristics of individual factory operations by automatically registering the first job information when receiving and registering only the second job information, without the hassle of receiving and registering the first job information. will do

In addition, if the category, product number, and product name for the product are grouped when receiving and registering the product information described above, when receiving and registering the second job information, only one of these information is received. The remaining grouped information may be registered together.

The third operation information is information on the production target amount of one or more products for which the operator is responsible for production, and efficient management of production may be possible through the third operation information.

In receiving and registering the third job information, the first to fourth base information described above can be utilized, and the production target can be achieved depending on the quantity of materials, the lifespan of molds and machines, and the lifespan of peripheral devices. because it is up to you to decide whether or not

More specifically, when receiving the third job information from the manager, the server 100 outputs a separate pop-up window (Window) if the received third job information does not match the first to fourth bases to set the production target amount. It can be modified, and the pop-up window itself can be implemented to order materials, molds, machines and peripherals, and even apply for A/S. This was a function provided by the material information list, mold information list, machine information list, and peripheral device list described above. By providing the corresponding functions in parallel in the process of registering the work order, the material information list, mold information list, and machine information list and to avoid the hassle of separately checking the peripheral device list.

The fourth work information is information about a target work period including a work start date and a work completion date of one or more products for which the worker will be responsible for production, and efficient management of a production schedule may be possible through the fourth work information.

To receive the fourth task information, the task start date and task completion date may be individually input from the manager, or a calendar may be output through a separate pop-up window and the task start date and task completion date may be selected. 5 If there is a worker's work schedule to be explained in the job information, for example, scheduled half-time leave, annual leave, vacation, etc., information about this can be output together.

In addition, the third base information may be utilized in registering the fourth job information, and more specifically, information on the maximum daily production may be utilized. For example, if the maximum daily output of “press machine 1” is “1,000 pieces” and the third job information is “10,000 pieces”, if the fourth job information, the job target period, is entered as 7 days, a separate pop-up window will appear. can output a notification to change the work target period or change the production target because the production target cannot be achieved through

The fifth job information includes selection information about a worker who will be in charge of production and selection information about a sharer who will share it. Through the fifth job information, the worker's attendance management and job history sharing may be possible.

Selection information about the worker who will be in charge of production is obtained by outputting a list of all workers working in the factory to which the product-worker customized smart factory platform operation method according to the second embodiment of the present invention is applied, and selecting from it. In the case of a sharer to share it, if a worker is selected, a worker who performs a task in connection with the worker or an intermediate manager who manages the worker can be automatically selected, and of course, they can be added individually. .

The sixth job information is information about an attached file related to one or more of the first job information to the fifth job information, and through the sixth job information, it is possible to provide various materials that can contribute to the worker's job performance.

For example, it is possible to register matters to be noted in operating the machine, photos of products, and documents that describe the matters to be achieved in case of rapid achievement of the production target, and there is no limit to the file format that can be registered. will be.

The specific steps included in step S220 have been described with reference to FIG. 4 so far, and one or more steps from steps S220-1 to S220-6 may be included in step S220, but as described above, the first job information to the first 6 Since the base information is information related to the worker who will produce the product, it would be desirable to include all steps if possible.

Let us return to the description of FIG. 2 .

If the work order is received from the manager and registered, the server 100 receives and registers the status of work details for the work order from the worker (S230).

In order to receive and register the work history status for the work order from the worker, the worker must be able to check the registered work order. Accordingly, the work order registered between steps S220 and S230 is placed on the operator's terminal (not shown). It may further include the step of outputting as a breakdown (S225), and the details of the operator's terminal (not shown) are the same as the description of the manager's terminal (not shown), so a detailed description is omitted to prevent duplicate description. do it

The work history output to the worker's terminal (not shown) may be initially set to "Standby" when the work order is registered, and one or more of "Progress, Stop, Complete and Share" as the status of the work history can be received and registered.

In this case, in terms of UI (User Interface), since it may be difficult to identify at a glance with letters alone, “Standby” is the first color and “Proceed, Stop, Complete and Share” is individually assigned to one of the second to fifth colors. It can be output by matching with .

So far, the product-worker customized smart factory platform operating method according to the second embodiment of the present invention has been described. According to the present invention, all meaningful information related to product production, from materials to lines, can be integrated and managed, and at the same time, a separate notification is provided so that an error does not occur in the registration of information linked with each other. It has the advantage of being able to operate efficiently. In addition, since all meaningful information is stored in the server 100 by itself or in a separate database (not shown), information can be accumulated according to use, and this can be converted into big data and reflected in factory operation. In addition, in line registration, machines included in other lines are distinguished and output, and when more than one machine is selected, a list including information on other machines that can be placed in front or behind is outputted reflecting the production process , even if there are many machines deployed in the factory, the line can be easily established. In addition, inventory management of materials, orders for molds, machines and peripheral devices, and A/S can be easily performed on the platform, thereby preventing unnecessary labor consumption. In addition, universal information managed by all factories and special information managed only by some factories can be managed, so it can be customized and easily introduced to various factories. In addition, although only the cost of building the server is primarily borne, individual details can be easily customized, so it has the advantage of being able to introduce a smart factory at a relatively economical cost. In addition, since the easy registration of the work order given to the worker and the registration of the status of the work history can be facilitated, it is possible to bring efficiency to the production management of the product as well as the worker management.

Although not described in detail to prevent duplicate description, all of the technical features applied to the product-worker customized smart factory platform operating method according to the second embodiment of the present invention described above are product-worker customized according to the first embodiment of the present invention It goes without saying that the same can be applied to the smart factory platform operation server 100 .

Although the embodiments of the present invention have been described above with reference to the accompanying drawings, those of ordinary skill in the art to which the present invention pertains can realize that the present invention can be embodied in other specific forms without changing the technical spirit or essential features. you will be able to understand Therefore, it should be understood that the embodiments described above are illustrative in all respects and not restrictive.

100: product-worker customized smart factory platform operation server
10: Processor
20: network interface
30: memory
40: storage
41: computer program
50: data bus

Claims (10)

(a) the server receiving from the manager one or more base information related to the production of one or more of the first to Nth (N is an integer of 2 or more) products and registering;
(b) registering, by the server, receiving a work instruction including work information for a worker who will be responsible for production of one or more of the first to Nth products from a manager; and
(c) registering, by the server, receiving the status of work details for the work order from the worker;
In the product-worker-customized smart factory platform operation method comprising:
The step (a) is,
(a-1) receiving and registering first base information on one or more materials used in the production of the product from the manager;
(a-2) receiving and registering second base information on one or more molds corresponding to the product from the manager;
(a-3) receiving and registering third base information about one or more machines on which the mold is to be mounted from the manager;
(a-4) receiving, from the manager, fourth base information about a peripheral device capable of interworking with one or more of the material, mold, and machine through a network and registering the same; and
(a-5) receiving and registering fifth base information for a line including the one or more machines from the administrator;
contains one or more of
The fifth base information for the line is,
at least one of the line number, detailed information, and the type, number, and name of one or more machines included in the line;
When receiving from the manager the types of one or more machines included in the line,
Outputs a first list including information on the same type of machine as the type of the received one or more machines to the terminal of the worker,
The first list is
Distinguish and output one or more machines included in a line different from the line and one or more machines that can be added to the line,
How to operate a product-worker customized smart factory platform. delete According to claim 1,
The second base information about the mold,
At least one of the manufacturer, manufacturing number, manufacturing specification, name, type and number of the mold;
How to operate a product-worker customized smart factory platform. According to claim 1,
The third base information about the machine is:
At least one of the machine's name, type, number, maximum daily output, manufacturer, manufacturer number, manufacturer detailed information and photos;
How to operate a product-worker customized smart factory platform. delete delete According to claim 1,
When receiving selection information for one or more machines included in the first list from the administrator,
Outputting a second list including information on one or more machines that have received the selection information and one or more machines that can be disposed on, before or after the production process to the operator's terminal,
How to operate a product-worker customized smart factory platform. According to claim 1,
Step (b) is
(b-1) receiving, from the manager, first job information on one or more lines to which the operator is to be put and one or more machines to be responsible, and registering the same;
(b-2) receiving and registering second job information for at least one of a category, a product number, and a product name for at least one product to be produced by the worker from the manager;
(b-3) receiving, from the manager, third job information on the production target amount of one or more products to be produced by the worker and registering the same;
(b-4) receiving, from the manager, fourth job information for a target job period including a job start date and a job completion date of one or more products for which the worker is responsible for production and registering the fourth job information;
(b-5) receiving and registering fifth job information including selection information on a worker who will be in charge of the production and selection information on a sharer who will share it from the manager; and
(b-6) receiving and registering an attached file related to one or more of the first to fifth job information from the manager;
A method of operating a product-worker customized smart factory platform comprising one or more of. 9. The method of claim 8,
Between steps (b) and (c),
(b') outputting the registered work instruction as work details to the terminal of the worker;
further comprising,
The work details are
The job history status is initially set to "Standby" and output in the first color,
How to operate a product-worker customized smart factory platform. 10. The method of claim 9,
The status of the work history in step (c) is,
further comprising one or more of proceed, stop, complete and share;
output by individually matching one of the second to fifth colors;
How to operate a product-worker customized smart factory platform.

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