JP2020098541A - Production system - Google Patents

Abstract

To make it possible to keep a subsequent production plan in an optimum state even if there is a difference between the condition on creation of a production plan and an actual achievement.SOLUTION: A production control device 3 replans a production plan using a production simulator 4 when replanning is instructed from a server 2 according to a determination that a replanning execution condition is satisfied, and assigns the replanned production plan to each production facility of a factory 1. As a result, even if a plan delay occurs, it is possible to keep the plan in an optimum state without affecting the subsequent production plan.SELECTED DRAWING: Figure 1

Description

The present invention relates to a production system.

Each production facility in the manufacturing plant operates according to each production plan. The production plan of each production facility is created from the situation such as the order status, the capacity of each production facility, the inventory status, and the operating time.

No. 2002-366221

For example, in Patent Document 1, a factory emulator is used to imitate the actual machines of a plurality of plants to perform virtual production, thereby objectively evaluating the operation rate of the production equipment of each plant and manufacturing the product. We propose to choose the most suitable factory.

However, even if a factory that is most suitable for manufacturing products is selected, the actual production of products may be delayed due to frequent occurrence of chocolate stops, may be stopped for a long time due to equipment failure, or may be sudden. In many cases, production does not proceed as planned due to changes in plans due to orders received. In this way, once the planning delay occurs, it affects the subsequent production plan and it is difficult to keep the production plan in an optimum state.

The present invention has been made in view of the above circumstances, and an object thereof is to be able to keep the subsequent production plan in an optimum state even when there is a difference between the condition when the production plan was created and the actual result. To provide a production system that

According to the invention of claim 1, when the production management section (2, 3) gives an optimized production plan to the actual production section (1), the actual production section (1) is based on the given production plan. Manufacture products.
The production control section (2, 3) manages the actual and actual production plan by the actual production section (1) in real time, and when it judges that the re-planning execution condition is satisfied, the production plan is optimized. It is re-planned and given to the actual production department (1).
The actual production unit (1) will manufacture the product based on the re-planned production plan. As a result, even when there is a difference between the condition at the time of creating the production plan and the actual result, it is possible to keep the optimum condition without affecting the subsequent production plan.

Schematic of the production system in one embodiment Schematic diagram of production system showing data transfer relationship Diagram for explaining the flow of data in the production plan Diagram showing typical operating procedures Diagram for explaining the production plan Diagram for explaining a normal production plan Diagram for explaining the suspension of production planning Diagram for explaining the resumption of production planning Diagram for explaining the overwrite of the production plan

Hereinafter, an embodiment of a production system will be described with reference to the drawings.
As shown in FIG. 1, the production system includes a factory 1 (corresponding to an actual production section), a server 2 (corresponding to a production control section), a production control device 3 (corresponding to a production control section), a production simulator 4 (a production control section). Equivalent to).

The factory 1 is equipped with various types of production equipment, and manufactures products by operating each production equipment appropriately. For example, parts are manufactured by molding raw materials by molding 5, and these parts are conveyed to an assembly line 7 by an AGV (Automated guided vehicle) 6 to assemble a product. Each production facility operates according to the production plan given by the server 2, and outputs its own operation status to the server 2 in real time.

The server 2 includes a data management unit 8 and a database unit 9 (corresponding to a storage unit). The data management unit 8 allocates the production plan created by the production control device 3 to each production facility of the factory 1 and collects operation information and quality information of the factory 1 and registers them in the database unit 9 to register the factory 1. Centrally manage production plans and operational status (production results).

The production controlling apparatus 3 creates a production plan by optimizing the production plan of the factory 1 input by the user with the production simulator 4, and when the re-planning execution condition is satisfied, the production simulator 4 uses the production simulator 4 as described later. Replan the production plan.

The factory 1, the server 2, and the production control device 3 will be described.
As shown in FIG. 2, the molding machine 5 of the factory 1 operates based on the assigned production plan to manufacture parts from raw materials. The molding machine 5 has a take-out robot 10, and the take-out robot 10 takes out parts from the molding machine 5 based on the production plan. The molding machine 5 outputs, for example, the operation record and the operation time to the server 2 in real time.

Each AGV 6 is centrally controlled by the AGV control system 11. Each AGV 6 conveys the parts taken out from the molding machine 5 by the take-out robot 10 to the assembly line 7 based on the conveyance plan which is the assigned production plan. Each AGV 6 outputs, for example, operation records and location information to the server 2 in real time.

The assembly line 7 assembles a product by taking in the parts set at predetermined positions by the AGV 6 based on the assigned production plan. The assembly line 7 outputs, for example, operation records, quality information, device information and the like to the server 2 in real time.

The data management unit 8 of the server 2 allocates the production plan to each production facility of the factory 1, while allocating the production plan to each production facility of the factory 1 when the rescheduled production plan is approved by the user. .. Further, the data management unit 8 inputs the operation information (operation record, operation time, etc.) from each production facility, and stores it in the database unit 9 as record data at regular intervals.

The production control apparatus 3 registers, as the production plan of the factory 1, for example, a finished product shipment plan, a facility production plan, and a production plan created from designation of express goods in the database unit 9. The production control apparatus 3 has a BI (Business Intelligence) tool 12, and by accessing the database unit 9, it functions as a real-time monitor of a production plan and a history reference.

The BI tool 12 can display the actual result data accumulated by the data management unit 8 in a fixed cycle in real time. However, when the actual result data changes in a cycle shorter than the fixed cycle, the changed actual result data is accumulated. Cannot be displayed. In such a case, the actual data may be accumulated in a short cycle, but this will result in an enormous storage capacity.

Therefore, the data management unit 8 basically accumulates the actual result data in a fixed cycle, and when the actual result data changes in a cycle shorter than the fixed cycle, accumulates the actual result and its change timing. That is, if the real-time information is continuously collected, the database capacity will be consumed in a short time. Therefore, after using the short-cycle data for display, store only the changed data in the database unit 9. To save space. As a result, it is possible to reduce the accumulated data while reflecting the result data that changes in a cycle shorter than the fixed cycle on the display.

The production control device 3 accesses the actual data of the database unit 9 to obtain actual data such as the finished product shipment result and each equipment production result, and the current production plan such as the finished product shipment plan and each equipment production plan described above. It is determined whether the re-planning execution conditions are satisfied based on the comparison result of 1 above and the presence or absence of the specification of express goods. When the re-planning execution condition is satisfied, the production simulator 4 is requested to re-plan.

The production simulator 4 has a function of an optimization scheduler, and when re-planning of the production plan is requested, the collected current operation information and updated shipping plan are reflected in the conditions of the simulation to re-produce the production plan. Implement the plan.
When the rescheduled production plan is approved by the user, the production control device 3 transmits the production plan to each facility via the data management unit 8 of the server 2. In other words, the production plan is automatically calculated by the production control device 3, but since the plan does not perfectly reproduce the actual state of the factory 1 and considers all production conditions, the user approves/denies the plan. I decided to do it. Also, the user can arbitrarily change the plan when confirming the plan.

Next, the data flow will be described with reference to FIG.
The database unit 9 is composed of a production record DB (database) 13, a production plan temporary storage DB 14, a production plan DB 15, and a production plan history DB 16.
(1) The user inputs a CSV file (Comma Separated Value) created in a predetermined format in advance to the production controlling apparatus 3 or directly inputs the key by operating the CSV to register the production plan.

(2) The production control device 3 uploads the production plan to the database unit 9 of the server 2. The uploaded production plan is stored in the production plan temporary storage DB 14.
(3) The production control device 3 requests the production simulator 4 to simulate a production plan.
(4) The production simulator 4 returns the simulation result.
(5) When the user approves the production plan, the approved production plan is uploaded to the database unit 9. The uploaded production plan is stored in the production plan temporary storage DB 14.

(6) The database unit 9 stores the updated production plan in the production plan DB 15 and the production plan history DB 16.
(7) The production plan stored in the production plan DB 15 is transmitted to the data management unit 8.
(8) The data management unit 8 assigns a production plan to each production facility of the factory 1.
As described above, data is transmitted and received during production planning.

Next, a data flow of the production record will be described.
(1) The data management unit 8 totalizes the production results based on the operation information transmitted by each production facility.
(2) The production record is reflected in the production record DB 13 of the database unit 9.
(3) The production controlling apparatus 3 downloads the production record from the database unit 9 and refers to it.

Next, a typical operation procedure for the production controlling apparatus 3 by the user will be described. As shown in FIG. 4, by logging into the system (S1), registering a shipping plan and simulating (S2), and approving the simulated production plan, the operation and performance of the equipment are managed (S3), Is displayed (S4). At this time, re-planning is performed as needed (S5). For re-planning, it is possible to edit shipping data or edit a facility plan.

Next, the above procedure will be specifically described.
(1) Registration of shipping plan and simulation (step S2)
In this step, the production control device 3 generates a production plan for each production facility of the factory 1 based on the shipping plan and initial conditions. A shipping plan is registered in the initial state where no production plan is registered, and a simulation is performed.

As a shipping plan registration procedure, an edit mode is entered by pressing an edit button on a "shipping plan" screen (not shown). In this edit mode, a stop flag described later for each production facility is "on". When the stop flag is “on”, each production facility continues to execute the currently executed plan, but when the plan is completed, the next plan cannot be started.

In other words, although it is desired to continue production in the factory 1 as much as possible during execution of the re-planning, if the plan under the re-planning is immediately started, the re-planning result cannot be matched. For this reason, the scope of re-planning will be the next plan or later, and the equipment will continue the plan in progress even while the re-plan is being carried out, and when the plan in progress is completed, it will go to the standby state without shifting to the next plan. I was supposed to.

Next, enter a shipping plan on the "shipping plan" screen. If there are multiple shipping plans, click the "Add" button to add a line for entering the plan.
As the operations for the cells constituting the "shipping plan" screen, it is possible to copy cells, delete cells, add cells, and change the order by moving up/down the selected cells.

Each item is set as the shipping plan.
-Serial number: Enter the serial number-Product number: Enter the product number of the product registered in the master-Plan number: Enter the production number-Express item: 0 (normal item) or 1 (Express item)-Delivery (plan) ): Required except for express goods, input delivery time in hours, minutes and seconds. It is also possible to register in batch by importing a shipping plan file created in advance.

The simulation procedure is as follows.
When the "simulation" button is clicked, a shipping plan is simulated, and if the simulation result does not satisfy the shipping plan, a pop-up message to that effect is displayed.

Similarly, the facility production plan is input and simulated, and the simulation results are respectively confirmed on a "shipment plan confirmation" screen and a "facility production plan confirmation" screen (not shown).
To confirm the simulation result of each production equipment, click the "equipment name" on the "equipment production plan confirmation" screen to confirm the plan. Confirm the simulation results in order by switching the displayed equipment in order.
Check the shipping plan and equipment production plan, and if there are no problems, click the “Approve” button to approve. If there is a problem, click the "Cancel" button and repeat the above procedure.
Although it is prohibited to register a plan that exceeds 24 o'clock on the day, it may be possible to register.

(2) Approval of plan, operation of equipment, actual result (step S3)
When the user approves the plan, the production plan is output to each production facility, and the stop flag becomes “off”. Since the production plan is output to each production facility, the operation status is collected as a record at the same time when each production facility operates.
Each production facility of the factory 1 starts production in accordance with the production plan as described above, while constantly outputting operation information (during production, suspension, etc.).

(3) Achievement display (step S4)
The operation information of the factory 1 can be confirmed in real time by the BI tool 12. Each production equipment can be displayed as a list on the BI tool 12, and when the display column of the desired production equipment is clicked, the corresponding equipment monitor screen is displayed.
For example, when the molding machine 5 is selected as the production equipment, the equipment monitor of the selected molding machine 5 is displayed. When the assembly line 7 is selected, the process proceeds to the equipment monitor of the selected assembly line 7. However, since it is difficult to display each AGV 6 individually, when any AGV 6 is selected, the common facility monitor is displayed.

(4) Re-planning (step S5)
The production control apparatus 3 requests production progress management, inventory status management, facility utilization rate calculation, and the like based on the operation information output from the factory 1 in real time and stored in the server 2.
The production control device 3 determines whether re-planning is necessary based on the operation information stored in the server 2, and when it determines that re-planning is necessary, instructs the production control device 3 to execute the re-planning. The progress status of the plan and the operating status of the factory 1 are output. The re-planning implementation conditions are arbitrarily determined by the user. For example, if forecasts deviate by more than a certain period of time, if the operating status of equipment is significantly reduced (including failures), or if there is a sudden change in the shipping plan (including orders for express goods) Such is the case.

The re-planning will be done by the following procedure.
The shipping plan and the facility production plan can be input and edited by clicking the "Edit" button on the "Edit shipping plan" screen and the "Edit facility production plan" screen. At this time, the stop flag becomes “on”, and each production facility does not start the next plan.
To change the shipping plan, the desired shipping plan is imported from the shipping plan file. When the shipping result is fetched, the shipping plan before the fetching is canceled and replaced with the fetched shipping result.
On the other hand, when editing the equipment production plan, the equipment production plan of the production control apparatus 3 is changed, added, or deleted.

The editing of the equipment production plan is as follows. The same applies to the assembly line 7.
(1) Click the "Edit" button on the "Facility Production Plan/Actual" screen.
(2) Change, add, or delete the equipment production plan on the "Edit equipment production plan" screen. Editable equipment production plans are only for those not yet started. The stop flag becomes “on” for each production facility, and each production facility does not start the next plan.
(3) Click the "Reflect" button to reflect the edited contents in the equipment production plan.
(4) Confirm the changes on the "Facility Production Plan/Actual" screen. By reflecting it, the equipment production plan is output to the edited production equipment, and the stop flag becomes “off”.

Business hours and break times can also be changed.
To change the business time and break time, edit the business time and break time on a "Setting" screen (not shown). If at least one of business time and break time is changed, it affects the production plan and the calculation of operating rate.

On the "shipping plan/actual" screen, the results that have exceeded the shipping schedule by a predetermined time are displayed in an identifying manner. That is, for example, when the warning threshold is exceeded, the corresponding part is displayed in yellow, and when the warning threshold is exceeded, the corresponding part is displayed in red.
When changing the time warning threshold value on the "shipping plan/actual result" screen, change the threshold value on the "setting" screen.

Then click the "Simulation" button. Then, the production simulator 4 updates the parameters of the factory model based on the information received from the production control device 3, and uses the model in which the actual situation of the factory 1 is reflected to generate the optimal production plan of each production facility. Output to the server 2.
If the simulation result has a delivery delay, an error will pop up.

Click "Equipment Name" to switch the displayed equipment in order and check the plan. Check the plan and if there are no problems, click the "Approve" button to approve.
If there is a problem, click the "Cancel" button and repeat the above procedure.
It is possible to compare the plan before the change and the plan after the re-simulation.
Although it is prohibited to register a plan that exceeds 24 o'clock on the day, it may be possible to register.

The production control device 3 displays the re-planning result to the user. The user confirms the re-planning result and approves the plan if there is no problem. The reschedule is registered in the server 2 in response to the user approving the reschedule result. As a result, the facility production plan is output to each production facility, and the stop flag becomes "off" accordingly.
As described above, by constantly reviewing the production plan using the real-time operation information of the factory 1, the production plan can be maintained in an optimal state, and waste-free production can be performed.

Next, the relationship between the equipment and the stop flag will be described. As shown in FIG. 5, it is assumed that plans 1 to 5 are set as a production plan in the order of execution schedule.
When the stop flag is "off", production is performed based on the plan 1 at the head.
When the production based on the plan 1 is completed, the plan after the second plan is moved forward and the plan 2 becomes the first.
It will be produced based on the plan 2 at the beginning.
Thereafter, plans 1-5 can be sequentially executed by repeating the above operation.

Next, the execution operation will be described.
(Regular production plan)
As shown in FIG. 6, the stop flag is “off”, the production is carried out based on the plan 1, and when the production based on the plan 1 is completed, the plan 2 and the subsequent stages are advanced to the next plan 2 and the plan 2 is produced. When the production based on (3) is finished, the production based on the following plan 3 is sequentially executed.

(Stop production plan)
As shown in FIG. 7, for example, when the stop flag is “on” during the production based on the plan 1, the plan 1 which has already been executed is executed, but since the plan 2 and subsequent ones are not carried forward, the plan should be executed. There is no.

(Resume production plan)
As shown in FIG. 8, when the plan that has been stopped after the plan 2 has been edited and the stop flag is set to “Off”, the plan 2 and later are advanced as usual, and the production based on the plan 2 is sequentially executed. ..

(Overwrite production plan)
As shown in FIG. 9, for example, when the production plan is overwritten so that the plan 5 is at the head during the production based on the plan 1, the next plan 2 is stopped by turning on the stop flag. In this case, the already executed plan 1 is executed.
When the overwritten production plan after the plan 5 is advanced and the editing is completed and the stop flag becomes "Off", the plan 5 and the following are advanced to produce the plan 5. Note that if the plan 1 is still being produced when the stop flag is “Off”, the plan 5 and subsequent steps will be sequentially executed after the plan 1 is completed.

According to such an embodiment, the following effects can be achieved.
When the replanning is instructed in response to the judgment that the replanning execution condition is satisfied, the production supervising apparatus 3 replans the production plan using the production simulator 4 and uses the replanned production plan in the factory 1 Since it is assigned to each production facility, even if there is a difference between the condition at the time of creating the production plan and the actual result, it is possible to maintain the optimum state without affecting the subsequent production plan.

The production control device 3 turns the stop flag “on” when editing or simulation is started, and turns the stop flag “off” when re-planning is given, and the stop flag of each production facility of the factory 1 is “on”. When the stop flag is "off", the rescheduled next production plan is executed, so the currently executed production plan is not interrupted. Can be executed.

When the data indicating the operating status of each production facility of the factory 1 changes in a shorter cycle than the normal collection cycle, the server 2 displays the data and stores only the changed data, so the data is stored. The storage capacity of the storage device can be reduced.

Since the server 2 gives a re-plan by the production control device 3 to each production facility of the factory 1 on condition that the approval is confirmed by the plan confirmation, the approval of the user can be reflected in the production management.
Since the production control device 3 permits the user to edit the re-plan, it is possible to reflect the change by the user.

Although the present disclosure has been described in accordance with the embodiments, it is understood that the present disclosure is not limited to the embodiments and structures. The present disclosure also includes various modifications and modifications within an equivalent range. In addition, various combinations and forms, and other combinations and forms including only one element, more, or less than them are also within the scope and spirit of the present disclosure.

In the drawings, 1 is a factory (actual production unit), 2 is a server (production management unit), 3 is a production control device (production management unit), 4 is a production simulator, and 9 is a database unit (storage unit).

Claims (8)

An actual production section (1) consisting of a plurality of production facilities for producing a product based on a given production plan;
The optimized production plan is given to the actual production section, and the actual and actual production plan is controlled by the actual production section in real time. A production control section (3) which is re-planned and given to the actual production section;
Production system with. The production management unit, when giving a re-planned production plan to the actual production unit, makes adjustments to execute the re-planned production plan after the production plan currently being executed by the actual production unit is finished. 1. The production system described in 1. The production management unit sets the stop flag to “on” when the re-planned production plan is given to the actual production unit, and sets the stop flag to “off” when the production plan is restarted,
When the stop flag is "on", the actual production unit continues to execute the currently-executed production plan and stops the next production plan. When the stop flag is "off", the actual production unit stops. The production system according to claim 2, wherein the next production plan is executed. The production management unit includes a storage unit (9) that stores the operation record of the production facility in association with time in a fixed cycle, and when the operation record changes at an interval shorter than the fixed cycle, the operation record. The production system according to any one of claims 1 to 3, wherein is stored in the storage unit in association with time. The production according to any one of claims 1 to 4, wherein when the production management unit gives the re-scheduled production plan to the actual production unit, the production plan is approved by an administrator. system. The production according to any one of claims 1 to 5, wherein the production management unit includes a production simulator (4) for simulating a production plan for virtually producing a product, and the production simulator is optimized by the production simulator. system. The production management unit includes a server (2) that registers the production plan replanned by the production management unit and collects the operating status of the production equipment in real time. The production system according to claim 1, wherein the production system is managed in real time. The implementation conditions of the re-planning are at least one of the implementation at regular intervals, when the actual and actual of the production plan greatly deviate, when the operating condition of the production equipment significantly decreases, when there is a sudden change in the shipping plan. The production system according to any one of claims 1 to 7.

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